Gene symbol: Cd24

Also known as: Cd24a

Organism: Rattus norvegicus

Summary: Predicted to enable several functions, including heat shock protein binding activity; protein kinase binding activity; and protein tyrosine kinase activator activity. Involved in immune response. Located in external side of plasma membrane. Is anchored component of external side of plasma membrane. Human ortholog(s) of this gene implicated in multiple sclerosis. Orthologous to human CD24 (CD24 molecule). [provided by Alliance of Genome Resources, Apr 2022]

NCBI gene ID: 25145 AllianceGenome:RGD:2298


GO Annotation


Category Term ID Term description
Process GO:0001655 Urogenital system development
Process GO:0001666 Response to hypoxia
Process GO:0001775 Cell activation
Process GO:0001817 Regulation of cytokine production
Process GO:0001818 Negative regulation of cytokine production
Process GO:0001822 Kidney development
Process GO:0001932 Regulation of protein phosphorylation
Process GO:0001934 Positive regulation of protein phosphorylation
Process GO:0001959 Regulation of cytokine-mediated signaling pathway
Process GO:0002237 Response to molecule of bacterial origin
Process GO:0002327 Immature B cell differentiation
Process GO:0002329 pre-B cell differentiation
Process GO:0002376 Immune system process
Process GO:0002520 Immune system development
Process GO:0002521 Leukocyte differentiation
Process GO:0002523 Leukocyte migration involved in inflammatory response
Process GO:0002682 Regulation of immune system process
Process GO:0002683 Negative regulation of immune system process
Process GO:0002684 Positive regulation of immune system process
Process GO:0002694 Regulation of leukocyte activation
Process GO:0002695 Negative regulation of leukocyte activation
Process GO:0002696 Positive regulation of leukocyte activation
Process GO:0002697 Regulation of immune effector process
Process GO:0002699 Positive regulation of immune effector process
Process GO:0002703 Regulation of leukocyte mediated immunity
Process GO:0002705 Positive regulation of leukocyte mediated immunity
Process GO:0002706 Regulation of lymphocyte mediated immunity
Process GO:0002708 Positive regulation of lymphocyte mediated immunity
Process GO:0002709 Regulation of T cell mediated immunity
Process GO:0002711 Positive regulation of T cell mediated immunity
Process GO:0002819 Regulation of adaptive immune response
Process GO:0002821 Positive regulation of adaptive immune response
Process GO:0002822 Regulation of adaptive immune response based on somatic recombination of immune receptors built from immunoglobulin superfamily domains
Process GO:0002824 Positive regulation of adaptive immune response based on somatic recombination of immune receptors built from immunoglobulin superfamily domains
Process GO:0002831 Regulation of response to biotic stimulus
Process GO:0002833 Positive regulation of response to biotic stimulus
Process GO:0002834 Regulation of response to tumor cell
Process GO:0002836 Positive regulation of response to tumor cell
Process GO:0002837 Regulation of immune response to tumor cell
Process GO:0002839 Positive regulation of immune response to tumor cell
Process GO:0002840 Regulation of T cell mediated immune response to tumor cell
Process GO:0002842 Positive regulation of T cell mediated immune response to tumor cell
Process GO:0002861 Regulation of inflammatory response to antigenic stimulus
Process GO:0002863 Positive regulation of inflammatory response to antigenic stimulus
Process GO:0002902 Regulation of B cell apoptotic process
Process GO:0002904 Positive regulation of B cell apoptotic process
Process GO:0006810 Transport
Process GO:0006886 Intracellular protein transport
Process GO:0006897 Endocytosis
Process GO:0006915 Apoptotic process
Process GO:0006921 Cellular component disassembly involved in execution phase of apoptosis
Process GO:0006950 Response to stress
Process GO:0006952 Defense response
Process GO:0006954 Inflammatory response
Process GO:0006955 Immune response
Process GO:0006996 Organelle organization
Process GO:0007005 Mitochondrion organization
Process GO:0007154 Cell communication
Process GO:0007155 Cell adhesion
Process GO:0007157 Heterophilic cell-cell adhesion via plasma membrane cell adhesion molecules
Process GO:0007159 Leukocyte cell-cell adhesion
Process GO:0007162 Negative regulation of cell adhesion
Process GO:0007165 Signal transduction
Process GO:0007166 Cell surface receptor signaling pathway
Process GO:0007204 Positive regulation of cytosolic calcium ion concentration
Process GO:0007267 Cell-cell signaling
Process GO:0007268 Chemical synaptic transmission
Process GO:0007274 Neuromuscular synaptic transmission
Process GO:0007275 Multicellular organism development
Process GO:0007399 Nervous system development
Process GO:0007406 Negative regulation of neuroblast proliferation
Process GO:0008104 Protein localization
Process GO:0008152 Metabolic process
Process GO:0008219 Cell death
Process GO:0008284 Positive regulation of cell population proliferation
Process GO:0008285 Negative regulation of cell population proliferation
Process GO:0008637 Apoptotic mitochondrial changes
Process GO:0009605 Response to external stimulus
Process GO:0009607 Response to biotic stimulus
Process GO:0009617 Response to bacterium
Process GO:0009628 Response to abiotic stimulus
Process GO:0009719 Response to endogenous stimulus
Process GO:0009725 Response to hormone
Process GO:0009888 Tissue development
Process GO:0009892 Negative regulation of metabolic process
Process GO:0009893 Positive regulation of metabolic process
Process GO:0009966 Regulation of signal transduction
Process GO:0009967 Positive regulation of signal transduction
Process GO:0009987 Cellular process
Process GO:0010033 Response to organic substance
Process GO:0010468 Regulation of gene expression
Process GO:0010562 Positive regulation of phosphorus metabolic process
Process GO:0010604 Positive regulation of macromolecule metabolic process
Process GO:0010605 Negative regulation of macromolecule metabolic process
Process GO:0010629 Negative regulation of gene expression
Process GO:0010646 Regulation of cell communication
Process GO:0010647 Positive regulation of cell communication
Process GO:0010721 Negative regulation of cell development
Process GO:0010941 Regulation of cell death
Process GO:0010942 Positive regulation of cell death
Process GO:0010975 Regulation of neuron projection development
Process GO:0010976 Positive regulation of neuron projection development
Process GO:0012501 Programmed cell death
Process GO:0015031 Protein transport
Process GO:0016043 Cellular component organization
Process GO:0016192 Vesicle-mediated transport
Process GO:0016477 Cell migration
Process GO:0019220 Regulation of phosphate metabolic process
Process GO:0019222 Regulation of metabolic process
Process GO:0022008 Neurogenesis
Process GO:0022407 Regulation of cell-cell adhesion
Process GO:0022408 Negative regulation of cell-cell adhesion
Process GO:0022409 Positive regulation of cell-cell adhesion
Process GO:0022411 Cellular component disassembly
Process GO:0023051 Regulation of signaling
Process GO:0023052 Signaling
Process GO:0023056 Positive regulation of signaling
Process GO:0030030 Cell projection organization
Process GO:0030097 Hemopoiesis
Process GO:0030098 Lymphocyte differentiation
Process GO:0030154 Cell differentiation
Process GO:0030155 Regulation of cell adhesion
Process GO:0030182 Neuron differentiation
Process GO:0030183 B cell differentiation
Process GO:0030262 Apoptotic nuclear changes
Process GO:0030855 Epithelial cell differentiation
Process GO:0030856 Regulation of epithelial cell differentiation
Process GO:0030858 Positive regulation of epithelial cell differentiation
Process GO:0030888 Regulation of B cell proliferation
Process GO:0030889 Negative regulation of B cell proliferation
Process GO:0031175 Neuron projection development
Process GO:0031294 Lymphocyte costimulation
Process GO:0031295 T cell costimulation
Process GO:0031323 Regulation of cellular metabolic process
Process GO:0031325 Positive regulation of cellular metabolic process
Process GO:0031334 Positive regulation of protein-containing complex assembly
Process GO:0031344 Regulation of cell projection organization
Process GO:0031346 Positive regulation of cell projection organization
Process GO:0031347 Regulation of defense response
Process GO:0031348 Negative regulation of defense response
Process GO:0031349 Positive regulation of defense response
Process GO:0031399 Regulation of protein modification process
Process GO:0031401 Positive regulation of protein modification process
Process GO:0032101 Regulation of response to external stimulus
Process GO:0032102 Negative regulation of response to external stimulus
Process GO:0032103 Positive regulation of response to external stimulus
Process GO:0032147 Activation of protein kinase activity
Process GO:0032501 Multicellular organismal process
Process GO:0032502 Developmental process
Process GO:0032594 Protein transport within lipid bilayer
Process GO:0032595 B cell receptor transport within lipid bilayer
Process GO:0032596 Protein transport into membrane raft
Process GO:0032597 B cell receptor transport into membrane raft
Process GO:0032599 Protein transport out of membrane raft
Process GO:0032600 Chemokine receptor transport out of membrane raft
Process GO:0032642 Regulation of chemokine production
Process GO:0032675 Regulation of interleukin-6 production
Process GO:0032680 Regulation of tumor necrosis factor production
Process GO:0032682 Negative regulation of chemokine production
Process GO:0032715 Negative regulation of interleukin-6 production
Process GO:0032720 Negative regulation of tumor necrosis factor production
Process GO:0032835 Glomerulus development
Process GO:0032910 Regulation of transforming growth factor beta3 production
Process GO:0032913 Negative regulation of transforming growth factor beta3 production
Process GO:0032944 Regulation of mononuclear cell proliferation
Process GO:0032945 Negative regulation of mononuclear cell proliferation
Process GO:0032946 Positive regulation of mononuclear cell proliferation
Process GO:0033036 Macromolecule localization
Process GO:0033606 Chemokine receptor transport within lipid bilayer
Process GO:0033623 Regulation of integrin activation
Process GO:0033625 Positive regulation of integrin activation
Process GO:0033628 Regulation of cell adhesion mediated by integrin
Process GO:0033630 Positive regulation of cell adhesion mediated by integrin
Process GO:0033632 Regulation of cell-cell adhesion mediated by integrin
Process GO:0033634 Positive regulation of cell-cell adhesion mediated by integrin
Process GO:0033674 Positive regulation of kinase activity
Process GO:0034103 Regulation of tissue remodeling
Process GO:0034104 Negative regulation of tissue remodeling
Process GO:0034106 Regulation of erythrocyte clearance
Process GO:0034107 Negative regulation of erythrocyte clearance
Process GO:0034109 Homotypic cell-cell adhesion
Process GO:0034110 Regulation of homotypic cell-cell adhesion
Process GO:0034111 Negative regulation of homotypic cell-cell adhesion
Process GO:0034118 Regulation of erythrocyte aggregation
Process GO:0034119 Negative regulation of erythrocyte aggregation
Process GO:0035850 Epithelial cell differentiation involved in kidney development
Process GO:0036293 Response to decreased oxygen levels
Process GO:0036465 Synaptic vesicle recycling
Process GO:0042102 Positive regulation of T cell proliferation
Process GO:0042103 Positive regulation of T cell homeostatic proliferation
Process GO:0042104 Positive regulation of activated T cell proliferation
Process GO:0042113 B cell activation
Process GO:0042127 Regulation of cell population proliferation
Process GO:0042129 Regulation of T cell proliferation
Process GO:0042130 Negative regulation of T cell proliferation
Process GO:0042221 Response to chemical
Process GO:0042325 Regulation of phosphorylation
Process GO:0042327 Positive regulation of phosphorylation
Process GO:0042592 Homeostatic process
Process GO:0042632 Cholesterol homeostasis
Process GO:0042981 Regulation of apoptotic process
Process GO:0043065 Positive regulation of apoptotic process
Process GO:0043067 Regulation of programmed cell death
Process GO:0043068 Positive regulation of programmed cell death
Process GO:0043085 Positive regulation of catalytic activity
Process GO:0043207 Response to external biotic stimulus
Process GO:0043254 Regulation of protein-containing complex assembly
Process GO:0043405 Regulation of MAP kinase activity
Process GO:0043406 Positive regulation of MAP kinase activity
Process GO:0043408 Regulation of MAPK cascade
Process GO:0043410 Positive regulation of MAPK cascade
Process GO:0043549 Regulation of kinase activity
Process GO:0043627 Response to estrogen
Process GO:0044087 Regulation of cellular component biogenesis
Process GO:0044089 Positive regulation of cellular component biogenesis
Process GO:0044093 Positive regulation of molecular function
Process GO:0044419 Biological process involved in interspecies interaction between organisms
Process GO:0045184 Establishment of protein localization
Process GO:0045321 Leukocyte activation
Process GO:0045577 Regulation of B cell differentiation
Process GO:0045595 Regulation of cell differentiation
Process GO:0045596 Negative regulation of cell differentiation
Process GO:0045597 Positive regulation of cell differentiation
Process GO:0045619 Regulation of lymphocyte differentiation
Process GO:0045664 Regulation of neuron differentiation
Process GO:0045665 Negative regulation of neuron differentiation
Process GO:0045730 Respiratory burst
Process GO:0045785 Positive regulation of cell adhesion
Process GO:0045859 Regulation of protein kinase activity
Process GO:0045860 Positive regulation of protein kinase activity
Process GO:0045937 Positive regulation of phosphate metabolic process
Process GO:0046006 Regulation of activated T cell proliferation
Process GO:0046013 Regulation of T cell homeostatic proliferation
Process GO:0046014 Negative regulation of T cell homeostatic proliferation
Process GO:0046634 Regulation of alpha-beta T cell activation
Process GO:0046635 Positive regulation of alpha-beta T cell activation
Process GO:0046640 Regulation of alpha-beta T cell proliferation
Process GO:0046641 Positive regulation of alpha-beta T cell proliferation
Process GO:0046649 Lymphocyte activation
Process GO:0046907 Intracellular transport
Process GO:0048468 Cell development
Process GO:0048488 Synaptic vesicle endocytosis
Process GO:0048513 Animal organ development
Process GO:0048518 Positive regulation of biological process
Process GO:0048519 Negative regulation of biological process
Process GO:0048522 Positive regulation of cellular process
Process GO:0048523 Negative regulation of cellular process
Process GO:0048534 Hematopoietic or lymphoid organ development
Process GO:0048583 Regulation of response to stimulus
Process GO:0048584 Positive regulation of response to stimulus
Process GO:0048585 Negative regulation of response to stimulus
Process GO:0048666 Neuron development
Process GO:0048699 Generation of neurons
Process GO:0048731 System development
Process GO:0048856 Anatomical structure development
Process GO:0048869 Cellular developmental process
Process GO:0048870 Cell motility
Process GO:0048878 Chemical homeostasis
Process GO:0050670 Regulation of lymphocyte proliferation
Process GO:0050671 Positive regulation of lymphocyte proliferation
Process GO:0050672 Negative regulation of lymphocyte proliferation
Process GO:0050727 Regulation of inflammatory response
Process GO:0050728 Negative regulation of inflammatory response
Process GO:0050729 Positive regulation of inflammatory response
Process GO:0050730 Regulation of peptidyl-tyrosine phosphorylation
Process GO:0050731 Positive regulation of peptidyl-tyrosine phosphorylation
Process GO:0050767 Regulation of neurogenesis
Process GO:0050768 Negative regulation of neurogenesis
Process GO:0050776 Regulation of immune response
Process GO:0050778 Positive regulation of immune response
Process GO:0050789 Regulation of biological process
Process GO:0050790 Regulation of catalytic activity
Process GO:0050793 Regulation of developmental process
Process GO:0050794 Regulation of cellular process
Process GO:0050848 Regulation of calcium-mediated signaling
Process GO:0050850 Positive regulation of calcium-mediated signaling
Process GO:0050863 Regulation of T cell activation
Process GO:0050864 Regulation of B cell activation
Process GO:0050865 Regulation of cell activation
Process GO:0050866 Negative regulation of cell activation
Process GO:0050867 Positive regulation of cell activation
Process GO:0050868 Negative regulation of T cell activation
Process GO:0050869 Negative regulation of B cell activation
Process GO:0050870 Positive regulation of T cell activation
Process GO:0050896 Response to stimulus
Process GO:0050900 Leukocyte migration
Process GO:0051093 Negative regulation of developmental process
Process GO:0051094 Positive regulation of developmental process
Process GO:0051128 Regulation of cellular component organization
Process GO:0051130 Positive regulation of cellular component organization
Process GO:0051171 Regulation of nitrogen compound metabolic process
Process GO:0051173 Positive regulation of nitrogen compound metabolic process
Process GO:0051174 Regulation of phosphorus metabolic process
Process GO:0051179 Localization
Process GO:0051234 Establishment of localization
Process GO:0051239 Regulation of multicellular organismal process
Process GO:0051241 Negative regulation of multicellular organismal process
Process GO:0051246 Regulation of protein metabolic process
Process GO:0051247 Positive regulation of protein metabolic process
Process GO:0051249 Regulation of lymphocyte activation
Process GO:0051250 Negative regulation of lymphocyte activation
Process GO:0051251 Positive regulation of lymphocyte activation
Process GO:0051338 Regulation of transferase activity
Process GO:0051347 Positive regulation of transferase activity
Process GO:0051641 Cellular localization
Process GO:0051649 Establishment of localization in cell
Process GO:0051668 Localization within membrane
Process GO:0051707 Response to other organism
Process GO:0051716 Cellular response to stimulus
Process GO:0051960 Regulation of nervous system development
Process GO:0051961 Negative regulation of nervous system development
Process GO:0055088 Lipid homeostasis
Process GO:0055092 Sterol homeostasis
Process GO:0060255 Regulation of macromolecule metabolic process
Process GO:0060284 Regulation of cell development
Process GO:0060429 Epithelium development
Process GO:0060759 Regulation of response to cytokine stimulus
Process GO:0061005 Cell differentiation involved in kidney development
Process GO:0061024 Membrane organization
Process GO:0061097 Regulation of protein tyrosine kinase activity
Process GO:0061098 Positive regulation of protein tyrosine kinase activity
Process GO:0061318 Renal filtration cell differentiation
Process GO:0065007 Biological regulation
Process GO:0065008 Regulation of biological quality
Process GO:0065009 Regulation of molecular function
Process GO:0070228 Regulation of lymphocyte apoptotic process
Process GO:0070230 Positive regulation of lymphocyte apoptotic process
Process GO:0070482 Response to oxygen levels
Process GO:0070663 Regulation of leukocyte proliferation
Process GO:0070664 Negative regulation of leukocyte proliferation
Process GO:0070665 Positive regulation of leukocyte proliferation
Process GO:0070727 Cellular macromolecule localization
Process GO:0071634 Regulation of transforming growth factor beta production
Process GO:0071635 Negative regulation of transforming growth factor beta production
Process GO:0071637 Regulation of monocyte chemotactic protein-1 production
Process GO:0071638 Negative regulation of monocyte chemotactic protein-1 production
Process GO:0071702 Organic substance transport
Process GO:0071705 Nitrogen compound transport
Process GO:0071840 Cellular component organization or biogenesis
Process GO:0071900 Regulation of protein serine/threonine kinase activity
Process GO:0071902 Positive regulation of protein serine/threonine kinase activity
Process GO:0072001 Renal system development
Process GO:0072006 Nephron development
Process GO:0072009 Nephron epithelium development
Process GO:0072010 Glomerular epithelium development
Process GO:0072073 Kidney epithelium development
Process GO:0072112 Podocyte differentiation
Process GO:0072139 Glomerular parietal epithelial cell differentiation
Process GO:0072182 Regulation of nephron tubule epithelial cell differentiation
Process GO:0072311 Glomerular epithelial cell differentiation
Process GO:0072657 Protein localization to membrane
Process GO:0080090 Regulation of primary metabolic process
Process GO:0080134 Regulation of response to stress
Process GO:0090150 Establishment of protein localization to membrane
Process GO:0097190 Apoptotic signaling pathway
Process GO:0097194 Execution phase of apoptosis
Process GO:0098609 Cell-cell adhesion
Process GO:0098742 Cell-cell adhesion via plasma-membrane adhesion molecules
Process GO:0098916 Anterograde trans-synaptic signaling
Process GO:0099003 Vesicle-mediated transport in synapse
Process GO:0099504 Synaptic vesicle cycle
Process GO:0099536 Synaptic signaling
Process GO:0099537 Trans-synaptic signaling
Process GO:0106014 Regulation of inflammatory response to wounding
Process GO:0106015 Negative regulation of inflammatory response to wounding
Process GO:0106016 Positive regulation of inflammatory response to wounding
Process GO:0120035 Regulation of plasma membrane bounded cell projection organization
Process GO:0120036 Plasma membrane bounded cell projection organization
Process GO:0140238 Presynaptic endocytosis
Process GO:1902105 Regulation of leukocyte differentiation
Process GO:1902531 Regulation of intracellular signal transduction
Process GO:1902533 Positive regulation of intracellular signal transduction
Process GO:1902692 Regulation of neuroblast proliferation
Process GO:1903034 Regulation of response to wounding
Process GO:1903035 Negative regulation of response to wounding
Process GO:1903036 Positive regulation of response to wounding
Process GO:1903037 Regulation of leukocyte cell-cell adhesion
Process GO:1903038 Negative regulation of leukocyte cell-cell adhesion
Process GO:1903039 Positive regulation of leukocyte cell-cell adhesion
Process GO:1903044 Protein localization to membrane raft
Process GO:1903131 Mononuclear cell differentiation
Process GO:1903555 Regulation of tumor necrosis factor superfamily cytokine production
Process GO:1903556 Negative regulation of tumor necrosis factor superfamily cytokine production
Process GO:1903706 Regulation of hemopoiesis
Process GO:2000026 Regulation of multicellular organismal development
Process GO:2000106 Regulation of leukocyte apoptotic process
Process GO:2000108 Positive regulation of leukocyte apoptotic process
Process GO:2000177 Regulation of neural precursor cell proliferation
Process GO:2000178 Negative regulation of neural precursor cell proliferation
Process GO:2000696 Regulation of epithelial cell differentiation involved in kidney development
Process GO:2000698 Positive regulation of epithelial cell differentiation involved in kidney development
Process GO:2000768 Positive regulation of nephron tubule epithelial cell differentiation
Component GO:0005886 Plasma membrane
Component GO:0005902 Microvillus
Component GO:0005929 Cilium
Component GO:0009897 External side of plasma membrane
Component GO:0009986 Cell surface
Component GO:0016020 Membrane
Component GO:0030054 Cell junction
Component GO:0031090 Organelle membrane
Component GO:0031224 Intrinsic component of membrane
Component GO:0031225 Anchored component of membrane
Component GO:0031226 Intrinsic component of plasma membrane
Component GO:0031233 Intrinsic component of external side of plasma membrane
Component GO:0031253 Cell projection membrane
Component GO:0031362 Anchored component of external side of plasma membrane
Component GO:0031528 Microvillus membrane
Component GO:0042995 Cell projection
Component GO:0043226 Organelle
Component GO:0043227 Membrane-bounded organelle
Component GO:0045121 Membrane raft
Component GO:0045202 Synapse
Component GO:0046658 Anchored component of plasma membrane
Component GO:0060170 Ciliary membrane
Component GO:0071944 Cell periphery
Component GO:0098552 Side of membrane
Component GO:0098588 Bounding membrane of organelle
Component GO:0098590 Plasma membrane region
Component GO:0098793 Presynapse
Component GO:0098857 Membrane microdomain
Component GO:0098858 Actin-based cell projection
Component GO:0110165 Cellular anatomical entity
Component GO:0120025 Plasma membrane bounded cell projection
Function GO:0005488 Binding
Function GO:0005515 Protein binding
Function GO:0008047 Enzyme activator activity
Function GO:0019207 Kinase regulator activity
Function GO:0019209 Kinase activator activity
Function GO:0019887 Protein kinase regulator activity
Function GO:0019899 Enzyme binding
Function GO:0019900 Kinase binding
Function GO:0019901 Protein kinase binding
Function GO:0030234 Enzyme regulator activity
Function GO:0030246 Carbohydrate binding
Function GO:0030295 Protein kinase activator activity
Function GO:0030296 Protein tyrosine kinase activator activity
Function GO:0030544 Hsp70 protein binding
Function GO:0031072 Heat shock protein binding
Function GO:0051879 Hsp90 protein binding
Function GO:0098772 Molecular function regulator activity

Pathway annotation


Category Term ID Term description
KEGG rno04148 Efferocytosis
KEGG rno04640 Hematopoietic cell lineage

Expression profile of Cd24 in omics data



ID GSE100499
Title Exploring acupuncture mechanism in preconditioning of IRI
Organism Rattus norvegicus
GSM Sample info Characteristics Value
GSM2685201 MX1 tissue: Myocardium gender: male 7.190213
GSM2685202 MX2 tissue: Myocardium gender: female 7.2347713
GSM2685203 MX3 tissue: Myocardium gender: female 7.410564
GSM2685204 MX4 tissue: Myocardium gender: male 7.7770753
GSM2685205 DZ1 tissue: Myocardium gender: male 7.44786
GSM2685206 DZ2 tissue: Myocardium gender: male 7.277892
GSM2685207 DZ3 tissue: Myocardium gender: female 7.18365
GSM2685208 DZ4 tissue: Myocardium gender: female 7.436687
GSM2685209 JJ1 tissue: Myocardium gender: male 7.5738797
GSM2685210 JJ2 tissue: Myocardium gender: female 7.3067536
GSM2685211 JJ3 tissue: Myocardium gender: female 7.4244027
GSM2685212 JJ4 tissue: Myocardium gender: male 7.5866747
GSM2685213 NG1 tissue: Myocardium gender: male 7.4854374
GSM2685214 NG2 tissue: Myocardium gender: female 7.3621836
GSM2685215 NG3 tissue: Myocardium gender: male 7.441138
GSM2685216 NG4 tissue: Myocardium gender: female 7.399135
GSM2685217 YL1 tissue: Myocardium gender: male 7.357816
GSM2685218 YL2 tissue: Myocardium gender: male 7.211016
GSM2685219 YL3 tissue: Myocardium gender: female 6.8344336
GSM2685220 YL4 tissue: Myocardium gender: female 6.7974195
GSM2685221 QC1 tissue: Myocardium gender: male 7.2032585
GSM2685222 QC2 tissue: Myocardium gender: male 7.473278
GSM2685223 QC3 tissue: Myocardium gender: female 7.2318244
GSM2685224 QC4 tissue: Myocardium gender: female 7.834773

ID GSE138454
Title Impact of inflammation on hepatic subcellular energetics in anesthetized rats
Organism Rattus norvegicus
GSM Sample info Characteristics Value
GSM4108997 Sample 1 Isoflurane sepsis anesthetic background: Isoflurane strain: Sprague-Dawley age: 10 weeks old sepsis/control: sepsis gender: male 65.0
GSM4108998 Sample 2 Isoflurane sepsis anesthetic background: Isoflurane strain: Sprague-Dawley age: 10 weeks old sepsis/control: sepsis gender: male 32.0
GSM4108999 Sample 3 Isoflurane sepsis anesthetic background: Isoflurane strain: Sprague-Dawley age: 10 weeks old sepsis/control: sepsis gender: male 66.0
GSM4109000 Sample 4 Isoflurane sepsis anesthetic background: Isoflurane strain: Sprague-Dawley age: 10 weeks old sepsis/control: sepsis gender: male 53.0
GSM4109001 Sample 5 Isoflurane control anesthetic background: Isoflurane strain: Sprague-Dawley age: 10 weeks old sepsis/control: control gender: male 20.0
GSM4109002 Sample 6 Isoflurane control anesthetic background: Isoflurane strain: Sprague-Dawley age: 10 weeks old sepsis/control: control gender: male 23.0
GSM4109003 Sample 7 Isoflurane control anesthetic background: Isoflurane strain: Sprague-Dawley age: 10 weeks old sepsis/control: control gender: male 17.0
GSM4109004 Sample 8 Isoflurane control anesthetic background: Isoflurane strain: Sprague-Dawley age: 10 weeks old sepsis/control: control gender: male 40.0
GSM4109005 Sample9 Propofol sepsis anesthetic background: Propofol strain: Sprague-Dawley age: 10 weeks old sepsis/control: sepsis gender: male 22.0
GSM4109006 Sample10 Propofol sepsis anesthetic background: Propofol strain: Sprague-Dawley age: 10 weeks old sepsis/control: sepsis gender: male 21.0
GSM4109007 Sample11 Propofol sepsis anesthetic background: Propofol strain: Sprague-Dawley age: 10 weeks old sepsis/control: sepsis gender: male 31.0
GSM4109008 Sample12 Propofol sepsis anesthetic background: Propofol strain: Sprague-Dawley age: 10 weeks old sepsis/control: sepsis gender: male 51.0
GSM4109009 Sample13 Propofol control anesthetic background: Propofol strain: Sprague-Dawley age: 10 weeks old sepsis/control: control gender: male 6.0
GSM4109010 Sample14 Propofol control anesthetic background: Propofol strain: Sprague-Dawley age: 10 weeks old sepsis/control: control gender: male 16.0
GSM4109011 Sample 15 Propofol control anesthetic background: Propofol strain: Sprague-Dawley age: 10 weeks old sepsis/control: control gender: male 12.0
GSM4109012 Sample16 Propofol control anesthetic background: Propofol strain: Sprague-Dawley age: 10 weeks old sepsis/control: control gender: male 10.0

ID GSE139220
Title Expression data from sevoflurane anesthesia treated rat
Organism Rattus norvegicus
GSM Sample info Characteristics Value
GSM4134285 Brain_Control_rep1 strain: Sprague-Dawley age: 18-month old treatment: control tissue: hippocampus 8.601227
GSM4134286 Brain_Control_rep2 strain: Sprague-Dawley age: 18-month old treatment: control tissue: hippocampus 8.547228
GSM4134287 Brain_Control_rep3 strain: Sprague-Dawley age: 18-month old treatment: control tissue: hippocampus 8.505362
GSM4134288 Brain_Sevoflurane_rep1 strain: Sprague-Dawley age: 18-month old treatment: sevoflurane anesthesia tissue: hippocampus 8.507082
GSM4134289 Brain_Sevoflurane_rep2 strain: Sprague-Dawley age: 18-month old treatment: sevoflurane anesthesia tissue: hippocampus 8.714508
GSM4134290 Brain_Sevoflurane_rep3 strain: Sprague-Dawley age: 18-month old treatment: sevoflurane anesthesia tissue: hippocampus 8.621923

ID GSE143895
Title GPR160 de-orphanization reveals critical roles in neuropathic pain in rodents
Organism Rattus norvegicus
GSM Sample info Characteristics Value
GSM4276356 dhsc01 strain: Sprague Dawley tissue: DHSC treatment: CCI 45.403
GSM4276357 dhsc03 strain: Sprague Dawley tissue: DHSC treatment: CCI 31.14
GSM4276358 dhsc05 strain: Sprague Dawley tissue: DHSC treatment: CCI 39.916
GSM4276359 dhsc13 strain: Sprague Dawley tissue: DHSC treatment: SHAM 75.725
GSM4276360 dhsc15 strain: Sprague Dawley tissue: DHSC treatment: SHAM 62.258

ID GSE157924
Title Regulation of acupuncture on genes in brain stem
Organism Rattus norvegicus
GSM Sample info Characteristics Value
GSM4780973 Rattus_JSSZ(Sham) tissue: Rattus brainstem of modeling treatment: Sham 9.408963983
GSM4780974 Rattus_JXZ(Hand Acu) tissue: Rattus brainstem of modeling treatment: Hand Acu 9.611991997
GSM4780975 Rattus_MXZ(TBI) tissue: Rattus brainstem of modeling treatment: TBI 9.56656694

ID GSE1616
Title Genomics of preconditioning
Organism Rattus norvegicus
GSM Sample info Characteristics Value
GSM27484 APC_a (anesthetic-preconditioning, 1st replicate) 62.866666666666674
GSM27485 APC_b (anesthetic-preconditioning, 2nd replicate) 21.833333333333332
GSM27486 APC_c (anesthetic-preconditioning, 3rd replicate) 12.533333333333333
GSM27487 APC_d (anesthetic-preconditioning, 4th replicate) 15.299999999999999
GSM27488 APC_e (anesthetic-preconditioning, 5th replicate) 26.03333333333333
GSM27489 APC_TRI_a (trigger of anesthetic-preconditioning, 1st replicate) 15.566666666666668
GSM27490 APC_TRI_b (trigger of anesthetic-preconditioning, 2nd replicate) 36.50000000000001
GSM27491 APC_TRI_c (trigger of anesthetic-preconditioning, 3rd replicate) 28.099999999999998
GSM27492 APC_TRI_d (trigger of anesthetic-preconditioning, 4th replicate) 17.666666666666668
GSM27493 APC_TRI_e (trigger of anesthetic-preconditioning, 5th replicate) 53.63333333333333
GSM27494 CTL_a (control, 1st replicate) 22.433333333333334
GSM27495 CTL_b (control, 2nd replicate) 18.533333333333335
GSM27496 CTL_c (control, 3rd replicate) 19.7
GSM27497 CTL_d (control, 4th replicate) 20.8
GSM27498 CTL_e (control, 5th replicate) 28.233333333333334
GSM27499 IPC_a (ischemic preconditioning, 1st replicate) 34.3
GSM27500 IPC_b (ischemic preconditioning, 2nd replicate) 24.566666666666666
GSM27501 IPC_c (ischemic preconditioning, 3rd replicate) 10.299999999999999
GSM27502 IPC_d (ischemic preconditioning, 4th replicate) 15.700000000000001
GSM27503 IPC_e (ischemic preconditioning, 5th replicate) 41.5
GSM27504 IPC_TRI_a (trigger of ischemic preconditioning, 1st replicate) 42.13333333333333
GSM27505 IPC_TRI_b (trigger of ischemic preconditioning, 2nd replicate) 58.866666666666674
GSM27506 IPC_TRI_c (trigger of ischemic preconditioning, 3rd replicate) 24.733333333333334
GSM27507 IPC_TRI_d (trigger of ischemic preconditioning, 4th replicate) 36.46666666666666
GSM27508 IPC_TRI_e (trigger of ischemic preconditioning, 5th replicate) 99.60000000000001
GSM27509 ISCH_a (ischemia, 1st replicate) 36.06666666666666
GSM27510 ISCH_b (ischemia, 2nd replicate) 10.333333333333334
GSM27511 ISCH_c (ischemia, 3rd replicate) 25.133333333333336
GSM27512 ISCH_d (ischemia, 4th replicate) 30.399999999999995
GSM27513 ISCH_e (ischemia, 5th replicate) 42.166666666666664

ID GSE1779
Title Effect of Isoflurane and LTM on basolateral amygdala
Organism Rattus norvegicus
GSM Sample info Characteristics Value
GSM30790 baseline control 01 male, 275-300g 572.9
GSM30791 baseline control 02 male, 275-300g 254.7
GSM30792 baseline control 03 male, 275-300g 637.2
GSM30793 baseline control 04 male, 275-300g 797.3
GSM30794 baseline control 05 male, 275-300g 705.3
GSM30795 baseline control 06 male, 275-300g 552.7
GSM30796 baseline control 07 male, 275-300g 891.1
GSM30797 baseline control 08 male, 275-300g 786.8
GSM30798 baseline control 09 male, 275-300g 662.4
GSM30799 pain 01 778.9
GSM30800 pain 02 584.1
GSM30801 pain 03 697.1
GSM30802 pain 04 830.1
GSM30803 pain 05 686.3
GSM30804 FC 01 764.1
GSM30805 FC 02 1146.2
GSM30806 FC 03 717.4
GSM30807 FC 04 710.3
GSM30808 FC 05 1137.6
GSM30809 IFC 01 622.7
GSM30810 IFC 02 881.6
GSM30811 IFC 03 635.4
GSM30812 IFC 04 690.5
GSM30813 IFC 05 758.9
GSM99800 isoflurane 01 male, 275-300g 617.0
GSM99801 isoflurane 02 male, 275-300g 651.1
GSM99802 isoflurane 03 male, 275-300g 583.5
GSM99803 isoflurane 04 male, 275-300g 856.2
GSM99804 isoflurane 05 male, 275-300g 652.8

ID GSE190472
Title Study on VEGF regulation mechanism of acupuncture improving endometrial receptivity in IVF-ET
Organism Rattus norvegicus
GSM Sample info Characteristics Value
GSM5724271 model 21 Sex: female tissue: Uterine tissue condition: model 1606.3212
GSM5724272 model 22 Sex: female tissue: Uterine tissue condition: model 1143.0401
GSM5724273 model 23 Sex: female tissue: Uterine tissue condition: model 2014.464
GSM5724274 treatment31 Sex: female tissue: Uterine tissue condition: treatment 1911.7359
GSM5724275 treatment32 Sex: female tissue: Uterine tissue condition: treatment 2713.6828
GSM5724276 treatment33 Sex: female tissue: Uterine tissue condition: treatment 2157.8515
GSM5724277 control 41 Sex: female tissue: Uterine tissue condition: control 4391.9785
GSM5724278 control 42 Sex: female tissue: Uterine tissue condition: control 3778.2847
GSM5724279 control 43 Sex: female tissue: Uterine tissue condition: control 1826.9075

ID GSE192399
Title Gene expression of brain regions activated by sevoflurane and propofol
Organism Rattus norvegicus
GSM Sample info Characteristics Value
GSM5746332 LHb, Sevoflurane, 60mins brain region: the lateral habenula (LHb) treatment: Sevoflurane 9.1364
GSM5746333 LHb, O2, 60mins brain region: the lateral habenula (LHb) treatment: O2 8.7743
GSM5746334 MHb, Sevoflurane, 60mins brain region: the medial habenula (MHb) treatment: Sevoflurane 10.1857
GSM5746335 MHb, O2, 60mins brain region: the medial habenula (MHb) treatment: O2 10.2142
GSM5746336 Sol, Sevoflurane, 60mins brain region: the solitary nucleus (Sol) treatment: Sevoflurane 12.9811
GSM5746337 Sol, O2, 60mins brain region: the solitary nucleus (Sol) treatment: O2 13.3221
GSM5746338 Mve, Sevoflurane, 60mins brain region: the medial vestibular nucleus (MVe) treatment: Sevoflurane 12.7124
GSM5746339 Mve, O2, 60mins brain region: the medial vestibular nucleus (MVe) treatment: O2 12.839
GSM5746340 LHb, Propofol, 60mins brain region: the lateral habenula (LHb) treatment: Propofol 8.69313
GSM5746341 LHb, Intralipos, 60mins brain region: the lateral habenula (LHb) treatment: Intralipos 8.55102
GSM5746342 MHb, Propofol, 60mins brain region: the medial habenula (MHb) treatment: Propofol 9.69506
GSM5746343 MHb, Intralipos, 60mins brain region: the medial habenula (MHb) treatment: Intralipos 9.71546
GSM5746344 Sol, Propofol, 60mins brain region: the solitary nucleus (Sol) treatment: Propofol 13.1396
GSM5746345 Sol, Intralipos, 60mins brain region: the solitary nucleus (Sol) treatment: Intralipos 12.6084
GSM5746346 MVe, Propofol, 60mins brain region: the medial vestibular nucleus (MVe) treatment: Propofol 12.7375
GSM5746347 MVe, Intralipos, 60mins brain region: the medial vestibular nucleus (MVe) treatment: Intralipos 12.5453

ID GSE21258
Title Transcript Profiling of Spinal Dorsal Horn in Response to Electroacupuncture on Rats at 1h
Organism Rattus norvegicus
GSM Sample info Characteristics Value
GSM531353 2Hz_HR_1h_DH1 rat time point: 1h strain: Sprague-Dawley tissue type: spinal dorsal horn frequency: 2Hz group: high responder (HR) rats;strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation. 0.336
GSM531354 2Hz_HR_1h_DH2 rat time point: 1h strain: Sprague-Dawley tissue type: spinal dorsal horn frequency: 2Hz group: high responder (HR) rats;strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation. -0.192
GSM531355 2Hz_HR_1h_DH3 rat time point: 1h strain: Sprague-Dawley tissue type: spinal dorsal horn frequency: 2Hz group: high responder (HR) rats;strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation. -0.256
GSM531356 2Hz_HR_1h_DH4 rat time point: 1h strain: Sprague-Dawley tissue type: spinal dorsal horn frequency: 2Hz group: high responder (HR) rats;strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation. 0.041
GSM531357 2Hz_HR_1h_DH5 rat time point: 1h strain: Sprague-Dawley tissue type: spinal dorsal horn frequency: 2Hz group: high responder (HR) rats;strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation. 0.774
GSM531358 2Hz_LR_1h_DH1 rat time point: 1h strain: Sprague-Dawley tissue type: spinal dorsal horn frequency: 2Hz group: low responder (LR) rats;strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation. -0.79
GSM531359 2Hz_LR_1h_DH2 rat time point: 1h strain: Sprague-Dawley tissue type: spinal dorsal horn frequency: 2Hz group: low responder (LR) rats;strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation. -0.137
GSM531360 2Hz_LR_1h_DH3 rat time point: 1h strain: Sprague-Dawley tissue type: spinal dorsal horn frequency: 2Hz group: low responder (LR) rats;strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation. -0.184
GSM531361 2Hz_LR_1h_DH4 rat time point: 1h strain: Sprague-Dawley tissue type: spinal dorsal horn frequency: 2Hz group: low responder (LR) rats;strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation. -0.635
GSM531362 100Hz_HR_1h_DH1 rat time point: 1h strain: Sprague-Dawley tissue type: spinal dorsal horn frequency: 100Hz group: high responder (HR) rats;strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation. -0.477
GSM531363 100Hz_HR_1h_DH2 rat time point: 1h strain: Sprague-Dawley tissue type: spinal dorsal horn frequency: 100Hz group: high responder (HR) rats;strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation. -0.389
GSM531364 100Hz_HR_1h_DH3 rat time point: 1h strain: Sprague-Dawley tissue type: spinal dorsal horn frequency: 100Hz group: high responder (HR) rats;strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation. 0.081
GSM531365 100Hz_HR_1h_DH4 rat time point: 1h strain: Sprague-Dawley tissue type: spinal dorsal horn frequency: 100Hz group: high responder (HR) rats;strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation. -0.065
GSM531366 100Hz_HR_1h_DH5 rat time point: 1h strain: Sprague-Dawley tissue type: spinal dorsal horn frequency: 100Hz group: high responder (HR) rats;strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation. -0.335
GSM531367 100Hz_LR_1h_DH1 rat time point: 1h;strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation. strain: Sprague-Dawley tissue type: spinal dorsal horn frequency: 100Hz group: low responder (LR) rats -0.911
GSM531368 100Hz_LR_1h_DH2 rat time point: 1h strain: Sprague-Dawley tissue type: spinal dorsal horn frequency: 100Hz group: low responder (LR) rats;strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation. -0.446
GSM531369 100Hz_LR_1h_DH3 rat time point: 1h strain: Sprague-Dawley tissue type: spinal dorsal horn frequency: 100Hz group: low responder (LR) rats;strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation. -0.513
GSM531370 100Hz_LR_1h_DH4 rat time point: 1h strain: Sprague-Dawley tissue type: spinal dorsal horn frequency: 100Hz group: low responder (LR) rats;strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation. 0.061
GSM531371 100Hz_LR_1h_DH5 rat time point: 1h strain: Sprague-Dawley tissue type: spinal dorsal horn frequency: 100Hz group: low responder (LR) rats;strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation. -0.209

ID GSE21733
Title Transcript Profiling of Spinal Dorsal Horn in Response to Electroacupuncture on Rats at 24h
Organism Rattus norvegicus
GSM Sample info Characteristics Value
GSM542196 2Hz_HR_24h_DH1 rat time point: 24h strain: Sprague-Dawley electroacupuncture frequency: 2Hz group: high responder (HR) rats tissue type: dorsal horn (DH); strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation tissue type: dorsal horn (DH) 0.273988269
GSM542197 2Hz_HR_24h_DH2 rat time point: 24h strain: Sprague-Dawley electroacupuncture frequency: 2Hz group: high responder (HR) rats tissue type: dorsal horn (DH); strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation tissue type: dorsal horn (DH) 0.577436588
GSM542198 2Hz_HR_24h_DH3 rat time point: 24h strain: Sprague-Dawley electroacupuncture frequency: 2Hz group: high responder (HR) rats tissue type: dorsal horn (DH); strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation tissue type: dorsal horn (DH) -0.473793969
GSM542199 2Hz_HR_24h_DH4 rat time point: 24h strain: Sprague-Dawley electroacupuncture frequency: 2Hz group: high responder (HR) rats tissue type: dorsal horn (DH); strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation tissue type: dorsal horn (DH) -0.351661097
GSM542200 2Hz_HR_24h_DH5 rat time point: 24h strain: Sprague-Dawley electroacupuncture frequency: 2Hz group: high responder (HR) rats tissue type: dorsal horn (DH);strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation tissue type: dorsal horn (DH) -0.667677696
GSM542201 2Hz_LR_24h_DH1 rat time point: 24h strain: Sprague-Dawley electroacupuncture frequency: 2Hz group: low responder (LR) rats tissue type: dorsal horn (DH);strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation tissue type: dorsal horn (DH) 0.030363491
GSM542202 2Hz_LR_24h_DH2 rat time point: 24h strain: Sprague-Dawley electroacupuncture frequency: 2Hz group: low responder (LR) rats tissue type: dorsal horn (DH);strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation tissue type: dorsal horn (DH) -0.533902444
GSM542203 2Hz_LR_24h_DH3 rat time point: 24h strain: Sprague-Dawley electroacupuncture frequency: 2Hz group: low responder (LR) rats tissue type: dorsal horn (DH);strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation tissue type: dorsal horn (DH) 0.366966221
GSM542204 2Hz_LR_24h_DH4 rat time point: 24h strain: Sprague-Dawley electroacupuncture frequency: 2Hz group: low responder (LR) rats tissue type: dorsal horn (DH);strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation tissue type: dorsal horn (DH) 0.954926969
GSM542205 2Hz_LR_24h_DH5 rat time point: 24h strain: Sprague-Dawley electroacupuncture frequency: 2Hz group: low responder (LR) rats tissue type: dorsal horn (DH);strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation tissue type: dorsal horn (DH) 0.443836078
GSM542206 100Hz_HR_24h_DH1 rat time point: 24h strain: Sprague-Dawley electroacupuncture frequency: 100Hz group: high responder (HR) rats tissue type: dorsal horn (DH);strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation tissue type: dorsal horn (DH) 0.702242006
GSM542207 100Hz_HR_24h_DH2 rat time point: 24h strain: Sprague-Dawley electroacupuncture frequency: 100Hz group: high responder (HR) rats tissue type: dorsal horn (DH);strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation tissue type: dorsal horn (DH) 0.156521961
GSM542208 100Hz_HR_24h_DH3 rat time point: 24h strain: Sprague-Dawley electroacupuncture frequency: 100Hz group: high responder (HR) rats tissue type: dorsal horn (DH);strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation tissue type: dorsal horn (DH) 0.105763744
GSM542209 100Hz_HR_24h_DH4 rat time point: 24h strain: Sprague-Dawley electroacupuncture frequency: 100Hz group: high responder (HR) rats tissue type: dorsal horn (DH);strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation tissue type: dorsal horn (DH) -0.456284557
GSM542210 100Hz_HR_24h_DH5 rat time point: 24h strain: Sprague-Dawley electroacupuncture frequency: 100Hz group: high responder (HR) rats tissue type: dorsal horn (DH);strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation tissue type: dorsal horn (DH) 0.278635263
GSM542211 100Hz_LR_24h_DH1 rat time point: 24h strain: Sprague-Dawley electroacupuncture frequency: 100Hz group: low responder (LR) rats tissue type: dorsal horn (DH);strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation tissue type: dorsal horn (DH) -0.064572005
GSM542212 100Hz_LR_24h_DH2 rat time point: 24h strain: Sprague-Dawley electroacupuncture frequency: 100Hz group: low responder (LR) rats tissue type: dorsal horn (DH);strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation tissue type: dorsal horn (DH) -0.018180011
GSM542213 100Hz_LR_24h_DH3 rat time point: 24h strain: Sprague-Dawley electroacupuncture frequency: 100Hz group: low responder (LR) rats tissue type: dorsal horn (DH);strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation tissue type: dorsal horn (DH) -0.37087654
GSM542214 100Hz_LR_24h_DH4 rat time point: 24h strain: Sprague-Dawley electroacupuncture frequency: 100Hz group: low responder (LR) rats tissue type: dorsal horn (DH);strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation tissue type: dorsal horn (DH) -0.49180713
GSM542215 100Hz_LR_24h_DH5 rat time point: 24h strain: Sprague-Dawley electroacupuncture frequency: 100Hz group: low responder (LR) rats tissue type: dorsal horn (DH);strain: Sprague-Dawley reference: rats sacrificed after stayed in their home cages without receiving electroacupuncture stimulation tissue type: dorsal horn (DH) 0.503971209

ID GSE232804
Title EGR3 regulates opioid-related nociception and motivation in male rats
Organism Rattus norvegicus
GSM Sample info Characteristics Value
GSM7383519 ww01_Saline_Saline tissue: Brain / mPFC pain: Saline drug: Salin 580.0
GSM7383520 ww02_Saline_Saline tissue: Brain / mPFC pain: Saline drug: Saline 626.0
GSM7383521 ww03_Saline_Saline tissue: Brain / mPFC pain: Saline drug: Salin 554.0
GSM7383522 ww05_Saline_Saline tissue: Brain / mPFC pain: Saline drug: Saline 557.0
GSM7383523 ww06_Saline_Saline tissue: Brain / mPFC pain: Saline drug: Salin 543.0
GSM7383524 ww07_Saline_Saline tissue: Brain / mPFC pain: Saline drug: Saline 430.0
GSM7383525 ww08_Saline_Saline tissue: Brain / mPFC pain: Saline drug: Salin 514.0
GSM7383526 ww10_Saline_Saline tissue: Brain / mPFC pain: Saline drug: Saline 473.0
GSM7383527 ww12_Saline_OXY tissue: Brain / mPFC pain: Saline drug: OXY 529.0
GSM7383528 ww13_Saline_OXY tissue: Brain / mPFC pain: Saline drug: OXY 722.0
GSM7383529 ww14_Saline_OXY tissue: Brain / mPFC pain: Saline drug: OXY 605.0
GSM7383530 ww15_Saline_OXY tissue: Brain / mPFC pain: Saline drug: OXY 579.0
GSM7383531 ww16_Saline_OXY tissue: Brain / mPFC pain: Saline drug: OXY 610.0
GSM7383532 ww17_Saline_OXY tissue: Brain / mPFC pain: Saline drug: OXY 712.0
GSM7383533 ww18_Saline_OXY tissue: Brain / mPFC pain: Saline drug: OXY 732.0
GSM7383534 ww20_Saline_OXY tissue: Brain / mPFC pain: Saline drug: OXY 459.0
GSM7383535 ww21_CFA_Saline tissue: Brain / mPFC pain: CFA drug: Saline 660.0
GSM7383536 ww22_CFA_Saline tissue: Brain / mPFC pain: CFA drug: Saline 675.0
GSM7383537 ww23_CFA_Saline tissue: Brain / mPFC pain: CFA drug: Saline 440.0
GSM7383538 ww24_CFA_Saline tissue: Brain / mPFC pain: CFA drug: Saline 447.0
GSM7383539 ww26_CFA_Saline tissue: Brain / mPFC pain: CFA drug: Saline 450.0
GSM7383540 ww27_CFA_Saline tissue: Brain / mPFC pain: CFA drug: Saline 807.0
GSM7383541 ww28_CFA_Saline tissue: Brain / mPFC pain: CFA drug: Saline 811.0
GSM7383542 ww30_CFA_Saline tissue: Brain / mPFC pain: CFA drug: Saline 730.0
GSM7383543 ww31_CFA_OXY tissue: Brain / mPFC pain: CFA drug: OXY 685.0
GSM7383544 ww32_CFA_OXY tissue: Brain / mPFC pain: CFA drug: OXY 458.0
GSM7383545 ww34_CFA_OXY tissue: Brain / mPFC pain: CFA drug: OXY 714.0
GSM7383546 ww35_CFA_OXY tissue: Brain / mPFC pain: CFA drug: OXY 631.0
GSM7383547 ww36_CFA_OXY tissue: Brain / mPFC pain: CFA drug: OXY 735.0
GSM7383548 ww37_CFA_OXY tissue: Brain / mPFC pain: CFA drug: OXY 796.0
GSM7383549 ww38_CFA_OXY tissue: Brain / mPFC pain: CFA drug: OXY 768.0
GSM7383550 www09_Saline_Saline tissue: Brain / mPFC pain: Saline drug: Saline 723.0
GSM7383551 www19_Saline_OXY tissue: Brain / mPFC pain: Saline drug: OXY 680.0
GSM7383552 www29_CFA_Saline tissue: Brain / mPFC pain: CFA drug: Saline 580.0
GSM7383553 www33_CFA_OXY tissue: Brain / mPFC pain: CFA drug: OXY 739.0
GSM7383554 www39_CFA_OXY tissue: Brain / mPFC pain: CFA drug: OXY 376.0

ID GSE244436
Title Similarity and dissimilarity in alteration of gene expression profile associated with inhalational anesthesia between sevoflurane and desflurane
Organism Rattus norvegicus
GSM Sample info Characteristics Value
GSM7816143 Liver, Control for SevoAnes tissue: liver genotype: wild type treatment: Control for SevoAnes 1.472306
GSM7816144 Liver, Anesthetized with sevoflurane for 6 h tissue: liver genotype: wild type treatment: Anesthetized with sevoflurane for 6 h 0.900076
GSM7816145 Liver, Control for DesAnes tissue: liver genotype: wild type treatment: Control for DesAnes 1.394792
GSM7816146 Liver, Anesthetized with desflurane for 6 h tissue: liver genotype: wild type treatment: Anesthetized with desflurane for 6 h 2.438694

ID GSE2982
Title Effect of inhaled anesthetic to cultured cortical neurons
Organism Rattus norvegicus
GSM Sample info Characteristics Value
GSM61779 Cell Culture Exposure (control1) Cy3 label;Cy5; -0.0135
GSM61796 Cell Culture Exposure (control2) Cy3; Cy5 -0.0181
GSM61797 Cell Culture Exposure (control3) Cy3; Cy5 -0.0438
GSM61798 Cell Culture Exposure (1MAC Halo1) Cy3; Cy5 0.178
GSM61799 Cell Culture Exposure (1MAC Halo2) Cy3; Cy5 -0.0322
GSM61800 Cell Culture Exposure (1MAC Halo3) Cy3; Cy5 -0.0407
GSM61801 Cell Culture Exposure (3MAC Halo1) Cy3; Cy5 -0.0629
GSM61802 Cell Culture Exposure (3MAC Halo2) Cy3; Cy5 0.00471
GSM61803 Cell Culture Exposure (3MAC Halo3) Cy3; Cy5 -0.0014
GSM61804 Cell Culture Exposure (3MAC ISO1) Cy3; Cy5 -0.0423
GSM61805 Cell Culture Exposure (3MAC ISO2) Cy3; Cy5 0.0246
GSM61806 Cell Culture Exposure (3MAC ISO3) Cy3; Cy5 -0.0717

ID GSE30365
Title Transcript Profiling of Arcuate Nucleus in Response to Electroacupuncture on Rats
Organism Rattus norvegicus
GSM Sample info Characteristics Value
GSM753495 2Hz_HR_Arc1 rat strain: Sprague-Dawley electroacupuncture: 2Hz responder: high;strain: Sprague-Dawley sample type: control 0.0
GSM753496 2Hz_HR_Arc2 rat strain: Sprague-Dawley electroacupuncture: 2Hz responder: high;strain: Sprague-Dawley sample type: control 0.0
GSM753497 2Hz_HR_Arc3 rat strain: Sprague-Dawley electroacupuncture: 2Hz responder: high;strain: Sprague-Dawley sample type: control 0.0
GSM753498 2Hz_NR_Arc1 rat strain: Sprague-Dawley electroacupuncture: 2Hz responder: no; strain: Sprague-Dawley sample type: control -0.585
GSM753499 2Hz_NR_Arc2 rat strain: Sprague-Dawley electroacupuncture: 2Hz responder: no; strain: Sprague-Dawley sample type: control -1.2016
GSM753500 2Hz_NR_Arc3 rat strain: Sprague-Dawley electroacupuncture: 2Hz responder: no; strain: Sprague-Dawley sample type: control 0.0
GSM753501 100Hz_HR_Arc1 rat strain: Sprague-Dawley electroacupuncture: 100Hz responder: high;strain: Sprague-Dawley sample type: control -0.2116
GSM753502 100Hz_HR_Arc2 rat strain: Sprague-Dawley electroacupuncture: 100Hz responder: high;strain: Sprague-Dawley sample type: control 0.0
GSM753503 100Hz_HR_Arc3 rat strain: Sprague-Dawley electroacupuncture: 100Hz responder: high;strain: Sprague-Dawley sample type: control -0.7655
GSM753504 100Hz_NR_Arc1 rat strain: Sprague-Dawley electroacupuncture: 100Hz responder: no;strain: Sprague-Dawley sample type: control -0.263
GSM753505 100Hz_NR_Arc2 rat strain: Sprague-Dawley electroacupuncture: 100Hz responder: no;strain: Sprague-Dawley sample type: control -0.0704
GSM753506 100Hz_NR_Arc3 rat strain: Sprague-Dawley electroacupuncture: 100Hz responder: no;strain: Sprague-Dawley sample type: control 0.0

ID GSE359
Title Isoflurane Single Exposures
Organism Rattus norvegicus
GSM Sample info Characteristics Value
GSM5120 Isoflurane single exposure control-1 146.03333333333333
GSM5121 Isoflurane single exposure control-2 189.13333333333335
GSM5122 Isoflurane single exposure control-3 190.03333333333333
GSM5124 Isoflurane single exposure 1 hr-1 111.06666666666668
GSM5126 Isoflurane single exposure 1 hr-2 215.5666666666667
GSM5127 Isoflurane single exposure 2 hr-1 168.23333333333335
GSM5130 Isoflurane single exposure 2 hr-2 152.66666666666666
GSM5131 Isoflurane single exposure 2 hr-3 152.5666666666667

ID GSE48025
Title Affymetrix Chip Data of the Transcriptome of the Rheumatoid Arthritis Rat Model Treated with Acupuncture (Affymetrix, mRNA, batch1)
Organism Rattus norvegicus
GSM Sample info Characteristics Value
GSM1165929 RAT_NORA_T0_1 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: healthy rats before therapy 8.678598157
GSM1165930 RAT_NORA_T0_2 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: healthy rats before therapy 8.753181082
GSM1165931 RAT_RA_T0_1 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats before therapy 8.546039409
GSM1165932 RAT_RA_T0_2 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats before therapy 9.051255485
GSM1165933 RAT_NORA_1h_1 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: healthy rats at 1 hour after therapy 9.505921295
GSM1165934 RAT_NORA_1h_2 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: healthy rats at 1 hour after therapy 8.122376884
GSM1165935 RAT_AP_1h_1 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats after 1 hour acupuncture therapy 8.629063872
GSM1165936 RAT_AP_1h_2 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats after 1 hour acupuncture therapy 10.22647104
GSM1165937 RAT_MTX_1h_1 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats after 1 hour MTX therapy 9.054087766
GSM1165938 RAT_MTX_1h_2 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats after 1 hour MTX therapy 9.696127938
GSM1165939 RAT_ANE_1h_1 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats after 1 hour ANE therapy 9.365185119
GSM1165940 RAT_ANE_1h_2 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats after 1 hour ANE therapy 6.714481028
GSM1165941 RAT_PLA_1h_1 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats after 1 hour placebo therapy 9.041521141
GSM1165942 RAT_PLA_1h_2 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats after 1 hour placebo therapy 9.233917571
GSM1165943 RAT_NORA_34d_1 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: healthy rats at 34 days after therapy 8.905116966
GSM1165944 RAT_NORA_34d_2 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: healthy rats at 34 days after therapy 8.899942962
GSM1165945 RAT_AP_34d_1 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats after 34 days acupuncture therapy 7.743055524
GSM1165946 RAT_AP_34d_2 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats after 34 days acupuncture therapy 8.095002827
GSM1165947 RAT_MTX_34d_1 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats after 34 days MTX therapy 7.59232314
GSM1165948 RAT_MTX_34d_2 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats after 34 days MTX therapy 8.858986867
GSM1165949 RAT_ANE_34d_1 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats after 34 days ANE therapy 8.026659683
GSM1165950 RAT_ANE_34d_2 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats after 34 days ANE therapy 8.216424704
GSM1165951 RAT_PLA_34d_1 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats after 34 days placebo therapy 9.234610296
GSM1165952 RAT_PLA_34d_2 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats after 34 days placebo therapy 8.530604316

ID GSE53897
Title Genome-wide analysis of dorsal root ganglion (DRG) gene expression after morphine or oxycodone treatment
Organism Rattus norvegicus
GSM Sample info Characteristics Value
GSM1303240 DRG RVM1 strain: sprague-dawley age: 3 months tissue: dorsal root ganglion 11.083405
GSM1303241 DRG RVM2 strain: sprague-dawley age: 3 months tissue: dorsal root ganglion 11.207981
GSM1303242 DRG RVM3 strain: sprague-dawley age: 3 months tissue: dorsal root ganglion 11.211493
GSM1303243 DRG RVM7 strain: sprague-dawley age: 3 months tissue: dorsal root ganglion 11.453536
GSM1303244 DRG RVOx2 strain: sprague-dawley age: 3 months tissue: dorsal root ganglion 11.344407
GSM1303245 DRG RVOx3 strain: sprague-dawley age: 3 months tissue: dorsal root ganglion 11.272761
GSM1303246 DRG RVOx5 strain: sprague-dawley age: 3 months tissue: dorsal root ganglion 11.595849
GSM1303247 DRG RVOx7 strain: sprague-dawley age: 3 months tissue: dorsal root ganglion 11.248421
GSM1303248 DRG RVS4 strain: sprague-dawley age: 3 months tissue: dorsal root ganglion 11.023732
GSM1303249 DRG RVS5 strain: sprague-dawley age: 3 months tissue: dorsal root ganglion 11.218416
GSM1303250 DRG RVS6 strain: sprague-dawley age: 3 months tissue: dorsal root ganglion 11.318347
GSM1303251 DRG RVS7 strain: sprague-dawley age: 3 months tissue: dorsal root ganglion 11.371339
GSM1303252 DRG RSM1 strain: sprague-dawley age: 3 months tissue: dorsal root ganglion 11.240947
GSM1303253 DRG RSM2 strain: sprague-dawley age: 3 months tissue: dorsal root ganglion 11.028709
GSM1303254 DRG RSM4 strain: sprague-dawley age: 3 months tissue: dorsal root ganglion 11.006383
GSM1303255 DRG RSM5 strain: sprague-dawley age: 3 months tissue: dorsal root ganglion 11.1302
GSM1303256 DRG RSOx1 strain: sprague-dawley age: 3 months tissue: dorsal root ganglion 11.280655
GSM1303257 DRG RSOx2 strain: sprague-dawley age: 3 months tissue: dorsal root ganglion 11.318347
GSM1303258 DRG RSOx3 strain: sprague-dawley age: 3 months tissue: dorsal root ganglion 11.143441
GSM1303259 DRG RSOx4 strain: sprague-dawley age: 3 months tissue: dorsal root ganglion 11.021909
GSM1303260 DRG RSS1 strain: sprague-dawley age: 3 months tissue: dorsal root ganglion 11.220799
GSM1303261 DRG RSS2 strain: sprague-dawley age: 3 months tissue: dorsal root ganglion 11.228483
GSM1303262 DRG RSS3 strain: sprague-dawley age: 3 months tissue: dorsal root ganglion 11.156226
GSM1303263 DRG RSS6 strain: sprague-dawley age: 3 months tissue: dorsal root ganglion 11.119316

ID GSE55573
Title Using DNA microarray to screen intracellular signal pathways of hypoglycemic activity by electroacupuncture of Zusanli (ST36) acupoints in streptozotocin-induced rats with diabetes
Organism Rattus norvegicus
GSM Sample info Characteristics Value
GSM1339443 Mock skeletal muscle strain: Wistar age: 8-10 week-old gender: Male 5996.141
GSM1339444 EA (electroacupuncture) skeletal muscle strain: Wistar age: 8-10 week-old gender: Male 3778.937

ID GSE58456
Title Affymetrix Chip Data of the Transcriptome of the Rheumatoid Arthritis Rat Model Treated with Acupuncture (Affymetrix, mRNA, batch 2)
Organism Rattus norvegicus
GSM Sample info Characteristics Value
GSM1693996 Peripheral blood mononuclear cells from NORA before therapy, replicate 1 strain/background: Wistar gender: female cell type: peripheral blood mononuclear cells subject group: healthy rats before therapy 694.7193726
GSM1693997 Peripheral blood mononuclear cells from NORA before therapy, replicate 2 strain/background: Wistar gender: female cell type: peripheral blood mononuclear cells subject group: healthy rats before therapy 1057.443704
GSM1693998 Peripheral blood mononuclear cells from NORA before therapy, replicate 3 strain/background: Wistar gender: female cell type: peripheral blood mononuclear cells subject group: healthy rats before therapy 568.7915483
GSM1693999 Peripheral blood mononuclear cells from RA before therapy, replicate 1 strain/background: Wistar gender: female cell type: peripheral blood mononuclear cells subject group: rheumatoid arthritis rats before therapy 659.2550339
GSM1694000 Peripheral blood mononuclear cells from RA before therapy, replicate 2 strain/background: Wistar gender: female cell type: peripheral blood mononuclear cells subject group: rheumatoid arthritis rats before therapy 290.9903205
GSM1694001 Peripheral blood mononuclear cells from HAP after 34 days acupuncture therapy, replicate 1 strain/background: Wistar gender: female cell type: peripheral blood mononuclear cells subject group: healthy rats after 34 days acupuncture therapy 650.4731633
GSM1694002 Peripheral blood mononuclear cells from HAP after 34 days acupuncture therapy, replicate 2 strain/background: Wistar gender: female cell type: peripheral blood mononuclear cells subject group: healthy rats after 34 days acupuncture therapy 606.162427
GSM1694003 Peripheral blood mononuclear cells from HAP after 34 days acupuncture therapy, replicate 3 strain/background: Wistar gender: female cell type: peripheral blood mononuclear cells subject group: healthy rats after 34 days acupuncture therapy 629.9245804
GSM1694004 Peripheral blood mononuclear cells from AP after 34 days acupuncture therapy, replicate 1 strain/background: Wistar gender: female cell type: peripheral blood mononuclear cells subject group: rheumatoid arthritis rats after 34 days acupuncture therapy 891.6828453
GSM1694005 Peripheral blood mononuclear cells from AP after 34 days acupuncture therapy, replicate 2 strain/background: Wistar gender: female cell type: peripheral blood mononuclear cells subject group: rheumatoid arthritis rats after 34 days acupuncture therapy 794.1632758
GSM1694006 Peripheral blood mononuclear cells from AP after 34 days acupuncture therapy, replicate 3 strain/background: Wistar gender: female cell type: peripheral blood mononuclear cells subject group: rheumatoid arthritis rats after 34 days acupuncture therapy 577.9150544
GSM1694007 Peripheral blood mononuclear cells from MTXAP after 34 days MTX&acupuncture therapy, replicate 1 strain/background: Wistar gender: female cell type: peripheral blood mononuclear cells subject group: rheumatoid arthritis rats after 34 days methotrexate & acupuncture therapy 343.6990295
GSM1694008 Peripheral blood mononuclear cells from MTXAP after 34 days MTX&acupuncture therapy, replicate 2 strain/background: Wistar gender: female cell type: peripheral blood mononuclear cells subject group: rheumatoid arthritis rats after 34 days methotrexate & acupuncture therapy 406.8919199
GSM1694009 Peripheral blood mononuclear cells from MTXAP after 34 days MTX&acupuncture therapy, replicate 3 strain/background: Wistar gender: female cell type: peripheral blood mononuclear cells subject group: rheumatoid arthritis rats after 34 days methotrexate & acupuncture therapy 1475.289799

ID GSE58460
Title Rheumatoid Arthritis Rat Model Treated with Acupuncture
Organism Rattus norvegicus
GSM Sample info Characteristics Value
GSM1165929 RAT_NORA_T0_1 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: healthy rats before therapy 8.678598157
GSM1165930 RAT_NORA_T0_2 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: healthy rats before therapy 8.753181082
GSM1165931 RAT_RA_T0_1 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats before therapy 8.546039409
GSM1165932 RAT_RA_T0_2 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats before therapy 9.051255485
GSM1165933 RAT_NORA_1h_1 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: healthy rats at 1 hour after therapy 9.505921295
GSM1165934 RAT_NORA_1h_2 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: healthy rats at 1 hour after therapy 8.122376884
GSM1165935 RAT_AP_1h_1 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats after 1 hour acupuncture therapy 8.629063872
GSM1165936 RAT_AP_1h_2 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats after 1 hour acupuncture therapy 10.22647104
GSM1165937 RAT_MTX_1h_1 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats after 1 hour MTX therapy 9.054087766
GSM1165938 RAT_MTX_1h_2 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats after 1 hour MTX therapy 9.696127938
GSM1165939 RAT_ANE_1h_1 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats after 1 hour ANE therapy 9.365185119
GSM1165940 RAT_ANE_1h_2 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats after 1 hour ANE therapy 6.714481028
GSM1165941 RAT_PLA_1h_1 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats after 1 hour placebo therapy 9.041521141
GSM1165942 RAT_PLA_1h_2 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats after 1 hour placebo therapy 9.233917571
GSM1165943 RAT_NORA_34d_1 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: healthy rats at 34 days after therapy 8.905116966
GSM1165944 RAT_NORA_34d_2 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: healthy rats at 34 days after therapy 8.899942962
GSM1165945 RAT_AP_34d_1 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats after 34 days acupuncture therapy 7.743055524
GSM1165946 RAT_AP_34d_2 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats after 34 days acupuncture therapy 8.095002827
GSM1165947 RAT_MTX_34d_1 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats after 34 days MTX therapy 7.59232314
GSM1165948 RAT_MTX_34d_2 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats after 34 days MTX therapy 8.858986867
GSM1165949 RAT_ANE_34d_1 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats after 34 days ANE therapy 8.026659683
GSM1165950 RAT_ANE_34d_2 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats after 34 days ANE therapy 8.216424704
GSM1165951 RAT_PLA_34d_1 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats after 34 days placebo therapy 9.234610296
GSM1165952 RAT_PLA_34d_2 gender: Female tissue: RAT Peripheral blood mononuclear cells strain: Wistar rat subject group: RA rats after 34 days placebo therapy 8.530604316
GSM1412003 RAT_NORA_T0_1 strain: Wistar gender: Female tissue: RAT Peripheral blood mononuclear cells
GSM1412004 RAT_NORA_T0_2 strain: Wistar gender: Female tissue: RAT Peripheral blood mononuclear cells
GSM1412005 RAT_RA_T0_1 strain: Wistar gender: Female tissue: RAT Peripheral blood mononuclear cells
GSM1412006 RAT_RA_T0_2 strain: Wistar gender: Female tissue: RAT Peripheral blood mononuclear cells
GSM1412007 RAT_NORA_1h_1 strain: Wistar gender: Female tissue: RAT Peripheral blood mononuclear cells
GSM1412008 RAT_NORA_1h_2 strain: Wistar gender: Female tissue: RAT Peripheral blood mononuclear cells
GSM1412009 RAT_AP_1h_1 strain: Wistar gender: Female tissue: RAT Peripheral blood mononuclear cells
GSM1412010 RAT_AP_1h_2 strain: Wistar gender: Female tissue: RAT Peripheral blood mononuclear cells
GSM1412011 RAT_MTX_1h_1 strain: Wistar gender: Female tissue: RAT Peripheral blood mononuclear cells
GSM1412012 RAT_MTX_1h_2 strain: Wistar gender: Female tissue: RAT Peripheral blood mononuclear cells
GSM1412013 RAT_ANE_1h_1 strain: Wistar gender: Female tissue: RAT Peripheral blood mononuclear cells
GSM1412014 RAT_ANE_1h_2 strain: Wistar gender: Female tissue: RAT Peripheral blood mononuclear cells
GSM1412015 RAT_PLA_1h_1 strain: Wistar gender: Female tissue: RAT Peripheral blood mononuclear cells
GSM1412016 RAT_PLA_1h_2 strain: Wistar gender: Female tissue: RAT Peripheral blood mononuclear cells
GSM1412017 RAT_NORA_34d_1 strain: Wistar gender: Female tissue: RAT Peripheral blood mononuclear cells
GSM1412018 RAT_NORA_34d_2 strain: Wistar gender: Female tissue: RAT Peripheral blood mononuclear cells
GSM1412019 RAT_AP_34d_1 strain: Wistar gender: Female tissue: RAT Peripheral blood mononuclear cells
GSM1412020 RAT_AP_34d_2 strain: Wistar gender: Female tissue: RAT Peripheral blood mononuclear cells
GSM1412021 RAT_MTX_34d_1 strain: Wistar gender: Female tissue: RAT Peripheral blood mononuclear cells
GSM1412022 RAT_MTX_34d_2 strain: Wistar gender: Female tissue: RAT Peripheral blood mononuclear cells
GSM1412023 RAT_ANE_34d_1 strain: Wistar gender: Female tissue: RAT Peripheral blood mononuclear cells
GSM1412024 RAT_ANE_34d_2 strain: Wistar gender: Female tissue: RAT Peripheral blood mononuclear cells
GSM1412025 RAT_PLA_34d_1 strain: Wistar gender: Female tissue: RAT Peripheral blood mononuclear cells
GSM1412026 RAT_PLA_34d_2 strain: Wistar gender: Female tissue: RAT Peripheral blood mononuclear cells
GSM1412027 RAT_RA_T0_1 strain: Wistar gender: Female tissue: RAT Sub-epidermidis muscle tissue
GSM1412028 RAT_RA_T0_2 strain: Wistar gender: Female tissue: RAT Sub-epidermidis muscle tissue
GSM1412029 RAT_AP_1h_1 strain: Wistar gender: Female tissue: RAT Sub-epidermidis muscle tissue
GSM1412030 RAT_AP_1h_2 strain: Wistar gender: Female tissue: RAT Sub-epidermidis muscle tissue
GSM1412031 RAT_PLA_1h_1 strain: Wistar gender: Female tissue: RAT Sub-epidermidis muscle tissue
GSM1412032 RAT_PLA_1h_2 strain: Wistar gender: Female tissue: RAT Sub-epidermidis muscle tissue
GSM1412033 RAT_AP_34d_1 strain: Wistar gender: Female tissue: RAT Sub-epidermidis muscle tissue
GSM1412034 RAT_AP_34d_2 strain: Wistar gender: Female tissue: RAT Sub-epidermidis muscle tissue
GSM1412035 RAT_PLA_34d_1 strain: Wistar gender: Female tissue: RAT Sub-epidermidis muscle tissue
GSM1412036 RAT_PLA_34d_2 strain: Wistar gender: Female tissue: RAT Sub-epidermidis muscle tissue
GSM1693996 Peripheral blood mononuclear cells from NORA before therapy, replicate 1 strain/background: Wistar gender: female cell type: peripheral blood mononuclear cells subject group: healthy rats before therap 694.7193726
GSM1693997 Peripheral blood mononuclear cells from NORA before therapy, replicate 2 strain/background: Wistar gender: female cell type: peripheral blood mononuclear cells subject group: healthy rats before therapy 1057.443704
GSM1693998 Peripheral blood mononuclear cells from NORA before therapy, replicate 3 strain/background: Wistar gender: female cell type: peripheral blood mononuclear cells subject group: healthy rats before therapy 568.7915483
GSM1693999 Peripheral blood mononuclear cells from RA before therapy, replicate 1 strain/background: Wistar gender: female cell type: peripheral blood mononuclear cells subject group: rheumatoid arthritis rats before therapy 659.2550339
GSM1694000 Peripheral blood mononuclear cells from RA before therapy, replicate 2 strain/background: Wistar gender: female cell type: peripheral blood mononuclear cells subject group: rheumatoid arthritis rats before therapy 290.9903205
GSM1694001 Peripheral blood mononuclear cells from HAP after 34 days acupuncture therapy, replicate 1 strain/background: Wistar gender: female cell type: peripheral blood mononuclear cells subject group: healthy rats after 34 days acupuncture therapy 650.4731633
GSM1694002 Peripheral blood mononuclear cells from HAP after 34 days acupuncture therapy, replicate 2 strain/background: Wistar gender: female cell type: peripheral blood mononuclear cells subject group: healthy rats after 34 days acupuncture therap 606.162427
GSM1694003 Peripheral blood mononuclear cells from HAP after 34 days acupuncture therapy, replicate 3 strain/background: Wistar gender: female cell type: peripheral blood mononuclear cells subject group: healthy rats after 34 days acupuncture therapy 629.9245804
GSM1694004 Peripheral blood mononuclear cells from AP after 34 days acupuncture therapy, replicate 1 strain/background: Wistar gender: female cell type: peripheral blood mononuclear cells subject group: rheumatoid arthritis rats after 34 days acupuncture therapy 891.6828453
GSM1694005 Peripheral blood mononuclear cells from AP after 34 days acupuncture therapy, replicate 2 strain/background: Wistar gender: female cell type: peripheral blood mononuclear cells subject group: rheumatoid arthritis rats after 34 days acupuncture therapy 794.1632758
GSM1694006 Peripheral blood mononuclear cells from AP after 34 days acupuncture therapy, replicate 3 strain/background: Wistar gender: female cell type: peripheral blood mononuclear cells subject group: rheumatoid arthritis rats after 34 days acupuncture therapy 577.9150544
GSM1694007 Peripheral blood mononuclear cells from MTXAP after 34 days MTX&acupuncture therapy, replicate 1 strain/background: Wistar gender: female cell type: peripheral blood mononuclear cells subject group: rheumatoid arthritis rats after 34 days methotrexate & acupuncture therapy 343.6990295
GSM1694008 Peripheral blood mononuclear cells from MTXAP after 34 days MTX&acupuncture therapy, replicate 2 strain/background: Wistar gender: female cell type: peripheral blood mononuclear cells subject group: rheumatoid arthritis rats after 34 days methotrexate & acupuncture therapy 406.8919199
GSM1694009 Peripheral blood mononuclear cells from MTXAP after 34 days MTX&acupuncture therapy, replicate 3 strain/background: Wistar gender: female cell type: peripheral blood mononuclear cells subject group: rheumatoid arthritis rats after 34 days methotrexate & acupuncture therapy 1475.289799

ID GSE58803
Title Transcript Profiling of Periaqueductal Gray in Response to Electroacupuncture on Rats
Organism Rattus norvegicus
GSM Sample info Characteristics Value
GSM1419812 2Hz_HR_1h_PAG1 rat strain: Sprague-Dawley tissue: PAG treatment: 2Hz electroacupuncture responder type: high responder(HR) time: 1h;strain: Sprague-Dawley treatment: control tissue: PAG 0.150660626
GSM1419813 2Hz_HR_1h_PAG2 rat strain: Sprague-Dawley tissue: PAG treatment: 2Hz electroacupuncture responder type: high responder(HR) time: 1h;strain: Sprague-Dawley treatment: control tissue: PAG -0.129314771
GSM1419814 2Hz_HR_1h_PAG3 rat strain: Sprague-Dawley tissue: PAG treatment: 2Hz electroacupuncture responder type: high responder(HR) time: 1h; strain: Sprague-Dawley treatment: control tissue: PAG -0.297505364
GSM1419815 2Hz_HR_1h_PAG4 rat strain: Sprague-Dawley tissue: PAG treatment: 2Hz electroacupuncture responder type: high responder(HR) time: 1h;strain: Sprague-Dawley treatment: control tissue: PAG -0.068686119
GSM1419816 2Hz_HR_1h_PAG5 rat strain: Sprague-Dawley tissue: PAG treatment: 2Hz electroacupuncture responder type: high responder(HR) time: 1h;strain: Sprague-Dawley treatment: control tissue: PAG 0.085114719
GSM1419817 2Hz_NR_1h_PAG1 rat strain: Sprague-Dawley tissue: PAG treatment: 2Hz electroacupuncture responder type: low responder(NR) time: 1h;strain: Sprague-Dawley treatment: control tissue: PAG 0.047292256
GSM1419818 2Hz_NR_1h_PAG2 rat strain: Sprague-Dawley tissue: PAG treatment: 2Hz electroacupuncture responder type: low responder(NR) time: 1h;strain: Sprague-Dawley treatment: control tissue: PAG 0.176710545
GSM1419819 2Hz_NR_1h_PAG3 rat strain: Sprague-Dawley tissue: PAG treatment: 2Hz electroacupuncture responder type: low responder(NR) time: 1h;strain: Sprague-Dawley treatment: control tissue: PAG 0.47731236
GSM1419820 2Hz_NR_1h_PAG4 rat strain: Sprague-Dawley tissue: PAG treatment: 2Hz electroacupuncture responder type: low responder(NR) time: 1h;strain: Sprague-Dawley treatment: control tissue: PAG 0.188265825
GSM1419821 100Hz_HR_1h_PAG1 rat strain: Sprague-Dawley tissue: PAG treatment: 100Hz electroacupuncture responder type: high responder(HR) time: 1h;strain: Sprague-Dawley treatment: control tissue: PAG 0.362379242
GSM1419822 100Hz_HR_1h_PAG2 rat strain: Sprague-Dawley tissue: PAG treatment: 100Hz electroacupuncture responder type: high responder(HR) time: 1h;strain: Sprague-Dawley treatment: control tissue: PAG 0.585624692
GSM1419823 100Hz_HR_1h_PAG3 rat strain: Sprague-Dawley tissue: PAG treatment: 100Hz electroacupuncture responder type: high responder(HR) time: 1h;strain: Sprague-Dawley treatment: control tissue: PAG 0.130663913
GSM1419824 100Hz_HR_1h_PAG4 rat strain: Sprague-Dawley tissue: PAG treatment: 100Hz electroacupuncture responder type: high responder(HR) time: 1h;strain: Sprague-Dawley treatment: control tissue: PAG 0.32425102
GSM1419825 100Hz_HR_1h_PAG5 rat strain: Sprague-Dawley tissue: PAG treatment: 100Hz electroacupuncture responder type: high responder(HR) time: 1h;strain: Sprague-Dawley treatment: control tissue: PAG 0.436431264
GSM1419826 100Hz_NR_1h_PAG1 rat strain: Sprague-Dawley tissue: PAG treatment: 100Hz electroacupuncture responder type: low responder(NR) time: 1h; strain: Sprague-Dawley treatment: control tissue: PAG -0.132821092
GSM1419827 100Hz_NR_1h_PAG2 rat strain: Sprague-Dawley tissue: PAG treatment: 100Hz electroacupuncture responder type: low responder(NR) time: 1h; strain: Sprague-Dawley treatment: control tissue: PAG 0.119864417
GSM1419828 100Hz_NR_1h_PAG3 rat strain: Sprague-Dawley tissue: PAG treatment: 100Hz electroacupuncture responder type: low responder(NR) time: 1h; strain: Sprague-Dawley treatment: control tissue: PAG 0.485401237
GSM1419829 100Hz_NR_1h_PAG4 rat strain: Sprague-Dawley tissue: PAG treatment: 100Hz electroacupuncture responder type: low responder(NR) time: 1h;strain: Sprague-Dawley treatment: control tissue: PAG 0.01350942
GSM1419830 100Hz_NR_1h_PAG5 rat strain: Sprague-Dawley tissue: PAG treatment: 100Hz electroacupuncture responder type: low responder(NR) time: 1h;strain: Sprague-Dawley treatment: control tissue: PAG 0.265612014
GSM1419831 2Hz_HR_24h_PAG1 rat strain: Sprague-Dawley tissue: PAG treatment: 2Hz electroacupuncture responder type: high responder(HR) time: 24h;strain: Sprague-Dawley treatment: control tissue: PAG -0.431935397
GSM1419832 2Hz_HR_24h_PAG2 rat strain: Sprague-Dawley tissue: PAG treatment: 2Hz electroacupuncture responder type: high responder(HR) time: 24h;strain: Sprague-Dawley treatment: control tissue: PAG -0.260961926
GSM1419833 2Hz_HR_24h_PAG3 rat strain: Sprague-Dawley tissue: PAG treatment: 2Hz electroacupuncture responder type: high responder(HR) time: 24h; strain: Sprague-Dawley treatment: control tissue: PAG -0.366377277
GSM1419834 2Hz_HR_24h_PAG4 rat strain: Sprague-Dawley tissue: PAG treatment: 2Hz electroacupuncture responder type: high responder(HR) time: 24h;strain: Sprague-Dawley treatment: control tissue: PAG 0.224822391
GSM1419835 2Hz_HR_24h_PAG5 rat strain: Sprague-Dawley tissue: PAG treatment: 2Hz electroacupuncture responder type: high responder(HR) time: 24h;strain: Sprague-Dawley treatment: control tissue: PAG -0.452973554
GSM1419836 2Hz_NR_24h_PAG1 rat strain: Sprague-Dawley tissue: PAG treatment: 2Hz electroacupuncture responder type: low responder(NR) time: 24h;strain: Sprague-Dawley treatment: control tissue: PAG 0.110867909
GSM1419837 2Hz_NR_24h_PAG2 rat strain: Sprague-Dawley tissue: PAG treatment: 2Hz electroacupuncture responder type: low responder(NR) time: 24h;strain: Sprague-Dawley treatment: control tissue: PAG 0.014632133
GSM1419838 2Hz_NR_24h_PAG3 rat strain: Sprague-Dawley tissue: PAG treatment: 2Hz electroacupuncture responder type: low responder(NR) time: 24h;strain: Sprague-Dawley treatment: control tissue: PAG 0.427202432
GSM1419839 2Hz_NR_24h_PAG4 rat strain: Sprague-Dawley tissue: PAG treatment: 2Hz electroacupuncture responder type: low responder(NR) time: 24h;strain: Sprague-Dawley treatment: control tissue: PAG -0.223747085
GSM1419840 2Hz_NR_24h_PAG5 rat strain: Sprague-Dawley tissue: PAG treatment: 2Hz electroacupuncture responder type: low responder(NR) time: 24h;strain: Sprague-Dawley treatment: control tissue: PAG 1.195121988
GSM1419841 100Hz_HR_24h_PAG1 rat strain: Sprague-Dawley tissue: PAG treatment: 100Hz electroacupuncture responder type: high responder(HR) time: 24h;strain: Sprague-Dawley treatment: control tissue: PAG 0.163992639
GSM1419842 100Hz_HR_24h_PAG2 rat strain: Sprague-Dawley tissue: PAG treatment: 100Hz electroacupuncture responder type: high responder(HR) time: 24h;strain: Sprague-Dawley treatment: control tissue: PAG 0.268464427
GSM1419843 100Hz_HR_24h_PAG3 rat strain: Sprague-Dawley tissue: PAG treatment: 100Hz electroacupuncture responder type: high responder(HR) time: 24h;strain: Sprague-Dawley treatment: control tissue: PAG 0.158561642
GSM1419844 100Hz_HR_24h_PAG4 rat strain: Sprague-Dawley tissue: PAG treatment: 100Hz electroacupuncture responder type: high responder(HR) time: 24h;strain: Sprague-Dawley treatment: control tissue: PAG -0.354894381
GSM1419845 100Hz_HR_24h_PAG5 rat strain: Sprague-Dawley tissue: PAG treatment: 100Hz electroacupuncture responder type: high responder(HR) time: 24h;strain: Sprague-Dawley treatment: control tissue: PAG -0.239867722
GSM1419846 100Hz_NR_24h_PAG1 rat strain: Sprague-Dawley tissue: PAG treatment: 100Hz electroacupuncture responder type: low responder(NR) time: 24h;strain: Sprague-Dawley treatment: control tissue: PAG -0.331570518
GSM1419847 100Hz_NR_24h_PAG2 rat strain: Sprague-Dawley tissue: PAG treatment: 100Hz electroacupuncture responder type: low responder(NR) time: 24h;strain: Sprague-Dawley treatment: control tissue: PAG 0.588882024
GSM1419848 100Hz_NR_24h_PAG3 rat strain: Sprague-Dawley tissue: PAG treatment: 100Hz electroacupuncture responder type: low responder(NR) time: 24h;strain: Sprague-Dawley treatment: control tissue: PAG 0.021224556
GSM1419849 100Hz_NR_24h_PAG4 rat strain: Sprague-Dawley tissue: PAG treatment: 100Hz electroacupuncture responder type: low responder(NR) time: 24h;strain: Sprague-Dawley treatment: control tissue: PAG 0.249255071
GSM1419850 100Hz_NR_24h_PAG5 rat strain: Sprague-Dawley tissue: PAG treatment: 100Hz electroacupuncture responder type: low responder(NR) time: 24h;strain: Sprague-Dawley treatment: control tissue: PAG 0.04284703

ID GSE752
Title Halothane/Isoflurane Repetitive Exposures
Organism Rattus norvegicus
GSM Sample info Characteristics Value
GSM5082 Control 1 94.76666666666667
GSM5084 Control 2 118.60000000000001
GSM5085 Control 3 137.6
GSM5086 Control 4 111.46666666666665
GSM5087 Control 5 119.06666666666666
GSM5090 Control 6 126.8
GSM5105 Control 7 117.10000000000001
GSM5106 Control 8 118.89999999999999
GSM5107 Control 9 105.63333333333334
GSM5108 Halothane 10 exposure-1 107.23333333333333
GSM5109 Halothane 10 exposures-2 114.03333333333335
GSM5110 Halothane 10 exposures-3 102.0
GSM5111 Halothane 5 exposures-1 113.46666666666665
GSM5112 Halothane 5 exposures-2 131.06666666666666
GSM5113 Halothane 5 exposures-3 112.5
GSM5114 Isoflurane 10 exposures-1 129.36666666666667
GSM5115 Isoflurane 10 exposures-2 136.5
GSM5116 Isoflurane 10 exposures-3 104.33333333333333
GSM5117 Isoflurane 5 exposures-1 112.09999999999998
GSM5118 Isoflurane 5 exposures-2 131.9333333333333
GSM5119 Isoflurane 5 exposures-3 101.33333333333333
GSM11379 Control 10 134.70000000000002
GSM11380 Control 11 99.83333333333333
GSM11381 Control 12 124.36666666666667

ID GSE8911
Title Skeletal muscle after fine needle stimulation
Organism Rattus norvegicus
GSM Sample info Characteristics Value
GSM225891 Skeletal muscle sample from fine needle-stimulated hindlimb Strain: Lewis, Gender: Male, Body Weight: 275g, Tissue: Skeletal muscle sample from fine nnedle-stimulated hindlimb 443.254
GSM225892 Skeletal muscle sample from control hindlimb Strain: Lewis, Gender: Male, Body weight: 275g, Tissue: skeletal muscle sample from non fine needle-stimulated hindlimb 396.26