Gene symbol: Cd2ap

Also known as: CMS

Organism: Rattus norvegicus

Summary: Enables several functions, including beta-catenin binding activity; cadherin binding activity; and protein C-terminus binding activity. Involved in several processes, including cell-cell adhesion; proteasome-mediated ubiquitin-dependent protein catabolic process; and regulation of receptor-mediated endocytosis. Located in cell leading edge; endocytic vesicle; and perinuclear region of cytoplasm. Part of protein-containing complex. Human ortholog(s) of this gene implicated in focal segmental glomerulosclerosis and focal segmental glomerulosclerosis 3. Orthologous to human CD2AP (CD2 associated protein). [provided by Alliance of Genome Resources, Apr 2022]

NCBI gene ID: 316258 Ensembl:ENSRNOG00000011987 AllianceGenome:RGD:727803


GO Annotation


Category Term ID Term description
Process GO:0001816 Cytokine production
Process GO:0001817 Regulation of cytokine production
Process GO:0001818 Negative regulation of cytokine production
Process GO:0006508 Proteolysis
Process GO:0006511 Ubiquitin-dependent protein catabolic process
Process GO:0006807 Nitrogen compound metabolic process
Process GO:0006996 Organelle organization
Process GO:0007010 Cytoskeleton organization
Process GO:0007015 Actin filament organization
Process GO:0007049 Cell cycle
Process GO:0007155 Cell adhesion
Process GO:0008152 Metabolic process
Process GO:0009056 Catabolic process
Process GO:0009057 Macromolecule catabolic process
Process GO:0009892 Negative regulation of metabolic process
Process GO:0009966 Regulation of signal transduction
Process GO:0009968 Negative regulation of signal transduction
Process GO:0009987 Cellular process
Process GO:0010467 Gene expression
Process GO:0010468 Regulation of gene expression
Process GO:0010498 Proteasomal protein catabolic 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:0010648 Negative regulation of cell communication
Process GO:0016043 Cellular component organization
Process GO:0016050 Vesicle organization
Process GO:0016477 Cell migration
Process GO:0019222 Regulation of metabolic process
Process GO:0019538 Protein metabolic process
Process GO:0019941 Modification-dependent protein catabolic process
Process GO:0023051 Regulation of signaling
Process GO:0023057 Negative regulation of signaling
Process GO:0030029 Actin filament-based process
Process GO:0030036 Actin cytoskeleton organization
Process GO:0030100 Regulation of endocytosis
Process GO:0030163 Protein catabolic process
Process GO:0032501 Multicellular organismal process
Process GO:0032879 Regulation of localization
Process GO:0032880 Regulation of protein localization
Process GO:0032905 Transforming growth factor beta1 production
Process GO:0032908 Regulation of transforming growth factor beta1 production
Process GO:0032911 Negative regulation of transforming growth factor beta1 production
Process GO:0032956 Regulation of actin cytoskeleton organization
Process GO:0032970 Regulation of actin filament-based process
Process GO:0033043 Regulation of organelle organization
Process GO:0043161 Proteasome-mediated ubiquitin-dependent protein catabolic process
Process GO:0043170 Macromolecule metabolic process
Process GO:0043632 Modification-dependent macromolecule catabolic process
Process GO:0044237 Cellular metabolic process
Process GO:0044238 Primary metabolic process
Process GO:0044248 Cellular catabolic process
Process GO:0044260 Cellular macromolecule metabolic process
Process GO:0044265 Cellular macromolecule catabolic process
Process GO:0048259 Regulation of receptor-mediated endocytosis
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:0048583 Regulation of response to stimulus
Process GO:0048585 Negative regulation of response to stimulus
Process GO:0048870 Cell motility
Process GO:0050708 Regulation of protein secretion
Process GO:0050714 Positive regulation of protein secretion
Process GO:0050789 Regulation of biological process
Process GO:0050794 Regulation of cellular process
Process GO:0051046 Regulation of secretion
Process GO:0051047 Positive regulation of secretion
Process GO:0051049 Regulation of transport
Process GO:0051050 Positive regulation of transport
Process GO:0051056 Regulation of small GTPase mediated signal transduction
Process GO:0051058 Negative regulation of small GTPase mediated signal transduction
Process GO:0051128 Regulation of cellular component organization
Process GO:0051222 Positive regulation of protein transport
Process GO:0051223 Regulation of protein transport
Process GO:0051239 Regulation of multicellular organismal process
Process GO:0051241 Negative regulation of multicellular organismal process
Process GO:0051301 Cell division
Process GO:0051493 Regulation of cytoskeleton organization
Process GO:0051603 Proteolysis involved in protein catabolic process
Process GO:0060255 Regulation of macromolecule metabolic process
Process GO:0060341 Regulation of cellular localization
Process GO:0060627 Regulation of vesicle-mediated transport
Process GO:0065007 Biological regulation
Process GO:0070201 Regulation of establishment of protein localization
Process GO:0071604 Transforming growth factor beta production
Process GO:0071634 Regulation of transforming growth factor beta production
Process GO:0071635 Negative regulation of transforming growth factor beta production
Process GO:0071704 Organic substance metabolic process
Process GO:0071840 Cellular component organization or biogenesis
Process GO:0097435 Supramolecular fiber organization
Process GO:0098609 Cell-cell adhesion
Process GO:1900180 Regulation of protein localization to nucleus
Process GO:1900182 Positive regulation of protein localization to nucleus
Process GO:1901564 Organonitrogen compound metabolic process
Process GO:1901565 Organonitrogen compound catabolic process
Process GO:1901575 Organic substance catabolic process
Process GO:1902531 Regulation of intracellular signal transduction
Process GO:1902532 Negative regulation of intracellular signal transduction
Process GO:1903530 Regulation of secretion by cell
Process GO:1903532 Positive regulation of secretion by cell
Process GO:1903829 Positive regulation of protein localization
Process GO:1904951 Positive regulation of establishment of protein localization
Process GO:2000249 Regulation of actin cytoskeleton reorganization
Component GO:0001650 Fibrillar center
Component GO:0001726 Ruffle
Component GO:0005622 Intracellular anatomical structure
Component GO:0005634 Nucleus
Component GO:0005730 Nucleolus
Component GO:0005737 Cytoplasm
Component GO:0005813 Centrosome
Component GO:0005815 Microtubule organizing center
Component GO:0005856 Cytoskeleton
Component GO:0005884 Actin filament
Component GO:0005886 Plasma membrane
Component GO:0005911 Cell-cell junction
Component GO:0015629 Actin cytoskeleton
Component GO:0015630 Microtubule cytoskeleton
Component GO:0016020 Membrane
Component GO:0030054 Cell junction
Component GO:0030139 Endocytic vesicle
Component GO:0030424 Axon
Component GO:0030425 Dendrite
Component GO:0031252 Cell leading edge
Component GO:0031410 Cytoplasmic vesicle
Component GO:0031941 Filamentous actin
Component GO:0031974 Membrane-enclosed lumen
Component GO:0031981 Nuclear lumen
Component GO:0031982 Vesicle
Component GO:0032991 Protein-containing complex
Component GO:0034451 Centriolar satellite
Component GO:0036477 Somatodendritic compartment
Component GO:0042995 Cell projection
Component GO:0043005 Neuron projection
Component GO:0043226 Organelle
Component GO:0043227 Membrane-bounded organelle
Component GO:0043228 Non-membrane-bounded organelle
Component GO:0043229 Intracellular organelle
Component GO:0043231 Intracellular membrane-bounded organelle
Component GO:0043232 Intracellular non-membrane-bounded organelle
Component GO:0043233 Organelle lumen
Component GO:0048471 Perinuclear region of cytoplasm
Component GO:0070013 Intracellular organelle lumen
Component GO:0070161 Anchoring junction
Component GO:0071944 Cell periphery
Component GO:0097447 Dendritic tree
Component GO:0097708 Intracellular vesicle
Component GO:0099080 Supramolecular complex
Component GO:0099081 Supramolecular polymer
Component GO:0099512 Supramolecular fiber
Component GO:0099513 Polymeric cytoskeletal fiber
Component GO:0110165 Cellular anatomical entity
Component GO:0120025 Plasma membrane bounded cell projection
Function GO:0005102 Signaling receptor binding
Function GO:0005126 Cytokine receptor binding
Function GO:0005172 Vascular endothelial growth factor receptor binding
Function GO:0005488 Binding
Function GO:0005515 Protein binding
Function GO:0008013 Beta-catenin binding
Function GO:0008022 Protein C-terminus binding
Function GO:0017124 SH3 domain binding
Function GO:0019904 Protein domain specific binding
Function GO:0042802 Identical protein binding
Function GO:0044877 Protein-containing complex binding
Function GO:0045296 Cadherin binding
Function GO:0050839 Cell adhesion molecule binding
Function GO:0070851 Growth factor receptor binding

Pathway annotation


Category Term ID Term description
KEGG rno05100 Bacterial invasion of epithelial cells

Expression profile of Cd2ap 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 7.86609
GSM2685202 MX2 tissue: Myocardium gender: female 7.7590837
GSM2685203 MX3 tissue: Myocardium gender: female 7.6712008
GSM2685204 MX4 tissue: Myocardium gender: male 7.6443005
GSM2685205 DZ1 tissue: Myocardium gender: male 7.945684
GSM2685206 DZ2 tissue: Myocardium gender: male 8.465907
GSM2685207 DZ3 tissue: Myocardium gender: female 8.105141
GSM2685208 DZ4 tissue: Myocardium gender: female 8.149491
GSM2685209 JJ1 tissue: Myocardium gender: male 8.041982
GSM2685210 JJ2 tissue: Myocardium gender: female 7.49279
GSM2685211 JJ3 tissue: Myocardium gender: female 7.7622004
GSM2685212 JJ4 tissue: Myocardium gender: male 7.7154055
GSM2685213 NG1 tissue: Myocardium gender: male 7.447189
GSM2685214 NG2 tissue: Myocardium gender: female 7.999748
GSM2685215 NG3 tissue: Myocardium gender: male 7.2637696
GSM2685216 NG4 tissue: Myocardium gender: female 7.379063
GSM2685217 YL1 tissue: Myocardium gender: male 7.3750935
GSM2685218 YL2 tissue: Myocardium gender: male 7.4581637
GSM2685219 YL3 tissue: Myocardium gender: female 8.042308
GSM2685220 YL4 tissue: Myocardium gender: female 7.56365
GSM2685221 QC1 tissue: Myocardium gender: male 7.3193455
GSM2685222 QC2 tissue: Myocardium gender: male 7.048702
GSM2685223 QC3 tissue: Myocardium gender: female 7.4765577
GSM2685224 QC4 tissue: Myocardium gender: female 7.2205296

ID GSE136833
Title Effects of lidocaine on the expression of rat spinal cord
Organism Rattus norvegicus
GSM Sample info Characteristics Value
GSM4058984 Control_1 strain: Sprague-Dawley tissue: Lumbar segment of spinal cord 6.247309623
GSM4058985 Control_2 strain: Sprague-Dawley tissue: Lumbar segment of spinal cord 6.567311308
GSM4058986 Control_3 strain: Sprague-Dawley tissue: Lumbar segment of spinal cord 6.573313648
GSM4058987 Lidocaine_1 strain: Sprague-Dawley tissue: Lumbar segment of spinal cord 6.719877486
GSM4058988 Lidocaine_2 strain: Sprague-Dawley tissue: Lumbar segment of spinal cord 6.394543146
GSM4058989 Lidocaine_3 strain: Sprague-Dawley tissue: Lumbar segment of spinal cord 6.945805959

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 1790.0
GSM4108998 Sample 2 Isoflurane sepsis anesthetic background: Isoflurane strain: Sprague-Dawley age: 10 weeks old sepsis/control: sepsis gender: male 1403.0
GSM4108999 Sample 3 Isoflurane sepsis anesthetic background: Isoflurane strain: Sprague-Dawley age: 10 weeks old sepsis/control: sepsis gender: male 1738.0
GSM4109000 Sample 4 Isoflurane sepsis anesthetic background: Isoflurane strain: Sprague-Dawley age: 10 weeks old sepsis/control: sepsis gender: male 1333.0
GSM4109001 Sample 5 Isoflurane control anesthetic background: Isoflurane strain: Sprague-Dawley age: 10 weeks old sepsis/control: control gender: male 1263.0
GSM4109002 Sample 6 Isoflurane control anesthetic background: Isoflurane strain: Sprague-Dawley age: 10 weeks old sepsis/control: control gender: male 1248.0
GSM4109003 Sample 7 Isoflurane control anesthetic background: Isoflurane strain: Sprague-Dawley age: 10 weeks old sepsis/control: control gender: male 1351.0
GSM4109004 Sample 8 Isoflurane control anesthetic background: Isoflurane strain: Sprague-Dawley age: 10 weeks old sepsis/control: control gender: male 2997.0
GSM4109005 Sample9 Propofol sepsis anesthetic background: Propofol strain: Sprague-Dawley age: 10 weeks old sepsis/control: sepsis gender: male 1029.0
GSM4109006 Sample10 Propofol sepsis anesthetic background: Propofol strain: Sprague-Dawley age: 10 weeks old sepsis/control: sepsis gender: male 1260.0
GSM4109007 Sample11 Propofol sepsis anesthetic background: Propofol strain: Sprague-Dawley age: 10 weeks old sepsis/control: sepsis gender: male 1027.0
GSM4109008 Sample12 Propofol sepsis anesthetic background: Propofol strain: Sprague-Dawley age: 10 weeks old sepsis/control: sepsis gender: male 1673.0
GSM4109009 Sample13 Propofol control anesthetic background: Propofol strain: Sprague-Dawley age: 10 weeks old sepsis/control: control gender: male 771.0
GSM4109010 Sample14 Propofol control anesthetic background: Propofol strain: Sprague-Dawley age: 10 weeks old sepsis/control: control gender: male 743.0
GSM4109011 Sample 15 Propofol control anesthetic background: Propofol strain: Sprague-Dawley age: 10 weeks old sepsis/control: control gender: male 1099.0
GSM4109012 Sample16 Propofol control anesthetic background: Propofol strain: Sprague-Dawley age: 10 weeks old sepsis/control: control gender: male 742.0

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 8.049442
GSM4134286 Brain_Control_rep2 strain: Sprague-Dawley age: 18-month old treatment: control tissue: hippocampus 7.841812
GSM4134287 Brain_Control_rep3 strain: Sprague-Dawley age: 18-month old treatment: control tissue: hippocampus 7.747794
GSM4134288 Brain_Sevoflurane_rep1 strain: Sprague-Dawley age: 18-month old treatment: sevoflurane anesthesia tissue: hippocampus 7.45233
GSM4134289 Brain_Sevoflurane_rep2 strain: Sprague-Dawley age: 18-month old treatment: sevoflurane anesthesia tissue: hippocampus 7.943896
GSM4134290 Brain_Sevoflurane_rep3 strain: Sprague-Dawley age: 18-month old treatment: sevoflurane anesthesia tissue: hippocampus 8.026962

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 23.024
GSM4276357 dhsc03 strain: Sprague Dawley tissue: DHSC treatment: CCI 22.254
GSM4276358 dhsc05 strain: Sprague Dawley tissue: DHSC treatment: CCI 27.428
GSM4276359 dhsc13 strain: Sprague Dawley tissue: DHSC treatment: SHAM 18.874
GSM4276360 dhsc15 strain: Sprague Dawley tissue: DHSC treatment: SHAM 16.992

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 9.67392
GSM5746333 LHb, O2, 60mins brain region: the lateral habenula (LHb) treatment: O2 9.60756
GSM5746334 MHb, Sevoflurane, 60mins brain region: the medial habenula (MHb) treatment: Sevoflurane 8.5535
GSM5746335 MHb, O2, 60mins brain region: the medial habenula (MHb) treatment: O2 8.90419
GSM5746336 Sol, Sevoflurane, 60mins brain region: the solitary nucleus (Sol) treatment: Sevoflurane 10.1583
GSM5746337 Sol, O2, 60mins brain region: the solitary nucleus (Sol) treatment: O2 10.0498
GSM5746338 Mve, Sevoflurane, 60mins brain region: the medial vestibular nucleus (MVe) treatment: Sevoflurane 9.8479
GSM5746339 Mve, O2, 60mins brain region: the medial vestibular nucleus (MVe) treatment: O2 10.1087
GSM5746340 LHb, Propofol, 60mins brain region: the lateral habenula (LHb) treatment: Propofol 8.7549
GSM5746341 LHb, Intralipos, 60mins brain region: the lateral habenula (LHb) treatment: Intralipos 9.39855
GSM5746342 MHb, Propofol, 60mins brain region: the medial habenula (MHb) treatment: Propofol 7.60347
GSM5746343 MHb, Intralipos, 60mins brain region: the medial habenula (MHb) treatment: Intralipos 8.41277
GSM5746344 Sol, Propofol, 60mins brain region: the solitary nucleus (Sol) treatment: Propofol 9.67208
GSM5746345 Sol, Intralipos, 60mins brain region: the solitary nucleus (Sol) treatment: Intralipos 9.19953
GSM5746346 MVe, Propofol, 60mins brain region: the medial vestibular nucleus (MVe) treatment: Propofol 9.01001
GSM5746347 MVe, Intralipos, 60mins brain region: the medial vestibular nucleus (MVe) treatment: Intralipos 9.0295

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 132.0
GSM7383520 ww02_Saline_Saline tissue: Brain / mPFC pain: Saline drug: Saline 130.0
GSM7383521 ww03_Saline_Saline tissue: Brain / mPFC pain: Saline drug: Salin 167.0
GSM7383522 ww05_Saline_Saline tissue: Brain / mPFC pain: Saline drug: Saline 197.0
GSM7383523 ww06_Saline_Saline tissue: Brain / mPFC pain: Saline drug: Salin 180.0
GSM7383524 ww07_Saline_Saline tissue: Brain / mPFC pain: Saline drug: Saline 125.0
GSM7383525 ww08_Saline_Saline tissue: Brain / mPFC pain: Saline drug: Salin 176.0
GSM7383526 ww10_Saline_Saline tissue: Brain / mPFC pain: Saline drug: Saline 121.0
GSM7383527 ww12_Saline_OXY tissue: Brain / mPFC pain: Saline drug: OXY 142.0
GSM7383528 ww13_Saline_OXY tissue: Brain / mPFC pain: Saline drug: OXY 220.0
GSM7383529 ww14_Saline_OXY tissue: Brain / mPFC pain: Saline drug: OXY 119.0
GSM7383530 ww15_Saline_OXY tissue: Brain / mPFC pain: Saline drug: OXY 161.0
GSM7383531 ww16_Saline_OXY tissue: Brain / mPFC pain: Saline drug: OXY 142.0
GSM7383532 ww17_Saline_OXY tissue: Brain / mPFC pain: Saline drug: OXY 235.0
GSM7383533 ww18_Saline_OXY tissue: Brain / mPFC pain: Saline drug: OXY 194.0
GSM7383534 ww20_Saline_OXY tissue: Brain / mPFC pain: Saline drug: OXY 152.0
GSM7383535 ww21_CFA_Saline tissue: Brain / mPFC pain: CFA drug: Saline 154.0
GSM7383536 ww22_CFA_Saline tissue: Brain / mPFC pain: CFA drug: Saline 144.0
GSM7383537 ww23_CFA_Saline tissue: Brain / mPFC pain: CFA drug: Saline 140.0
GSM7383538 ww24_CFA_Saline tissue: Brain / mPFC pain: CFA drug: Saline 167.0
GSM7383539 ww26_CFA_Saline tissue: Brain / mPFC pain: CFA drug: Saline 172.0
GSM7383540 ww27_CFA_Saline tissue: Brain / mPFC pain: CFA drug: Saline 206.0
GSM7383541 ww28_CFA_Saline tissue: Brain / mPFC pain: CFA drug: Saline 183.0
GSM7383542 ww30_CFA_Saline tissue: Brain / mPFC pain: CFA drug: Saline 150.0
GSM7383543 ww31_CFA_OXY tissue: Brain / mPFC pain: CFA drug: OXY 157.0
GSM7383544 ww32_CFA_OXY tissue: Brain / mPFC pain: CFA drug: OXY 156.0
GSM7383545 ww34_CFA_OXY tissue: Brain / mPFC pain: CFA drug: OXY 147.0
GSM7383546 ww35_CFA_OXY tissue: Brain / mPFC pain: CFA drug: OXY 143.0
GSM7383547 ww36_CFA_OXY tissue: Brain / mPFC pain: CFA drug: OXY 146.0
GSM7383548 ww37_CFA_OXY tissue: Brain / mPFC pain: CFA drug: OXY 181.0
GSM7383549 ww38_CFA_OXY tissue: Brain / mPFC pain: CFA drug: OXY 193.0
GSM7383550 www09_Saline_Saline tissue: Brain / mPFC pain: Saline drug: Saline 196.0
GSM7383551 www19_Saline_OXY tissue: Brain / mPFC pain: Saline drug: OXY 201.0
GSM7383552 www29_CFA_Saline tissue: Brain / mPFC pain: CFA drug: Saline 153.0
GSM7383553 www33_CFA_OXY tissue: Brain / mPFC pain: CFA drug: OXY 159.0
GSM7383554 www39_CFA_OXY tissue: Brain / mPFC pain: CFA drug: OXY 149.0

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 67.117012
GSM7816144 Liver, Anesthetized with sevoflurane for 6 h tissue: liver genotype: wild type treatment: Anesthetized with sevoflurane for 6 h 49.033722
GSM7816145 Liver, Control for DesAnes tissue: liver genotype: wild type treatment: Control for DesAnes 59.705151
GSM7816146 Liver, Anesthetized with desflurane for 6 h tissue: liver genotype: wild type treatment: Anesthetized with desflurane for 6 h 51.962601

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; 0.0787
GSM61796 Cell Culture Exposure (control2) Cy3; Cy5 0.045399999999999996
GSM61797 Cell Culture Exposure (control3) Cy3; Cy5 0.016453333333333334
GSM61798 Cell Culture Exposure (1MAC Halo1) Cy3; Cy5 0.2891666666666667
GSM61799 Cell Culture Exposure (1MAC Halo2) Cy3; Cy5 0.0038333333333333323
GSM61800 Cell Culture Exposure (1MAC Halo3) Cy3; Cy5 0.015076666666666667
GSM61801 Cell Culture Exposure (3MAC Halo1) Cy3; Cy5 0.0944
GSM61802 Cell Culture Exposure (3MAC Halo2) Cy3; Cy5 0.1229
GSM61803 Cell Culture Exposure (3MAC Halo3) Cy3; Cy5 0.09583333333333333
GSM61804 Cell Culture Exposure (3MAC ISO1) Cy3; Cy5 0.05863333333333332
GSM61805 Cell Culture Exposure (3MAC ISO2) Cy3; Cy5 0.07160000000000001
GSM61806 Cell Culture Exposure (3MAC ISO3) Cy3; Cy5 0.06823333333333333

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 -0.7655
GSM753496 2Hz_HR_Arc2 rat strain: Sprague-Dawley electroacupuncture: 2Hz responder: high;strain: Sprague-Dawley sample type: control -0.0328
GSM753497 2Hz_HR_Arc3 rat strain: Sprague-Dawley electroacupuncture: 2Hz responder: high;strain: Sprague-Dawley sample type: control -0.1375
GSM753498 2Hz_NR_Arc1 rat strain: Sprague-Dawley electroacupuncture: 2Hz responder: no; strain: Sprague-Dawley sample type: control -0.7655
GSM753499 2Hz_NR_Arc2 rat strain: Sprague-Dawley electroacupuncture: 2Hz responder: no; strain: Sprague-Dawley sample type: control -0.585
GSM753500 2Hz_NR_Arc3 rat strain: Sprague-Dawley electroacupuncture: 2Hz responder: no; strain: Sprague-Dawley sample type: control -0.926
GSM753501 100Hz_HR_Arc1 rat strain: Sprague-Dawley electroacupuncture: 100Hz responder: high;strain: Sprague-Dawley sample type: control 1.7226
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 -0.5898
GSM753504 100Hz_NR_Arc1 rat strain: Sprague-Dawley electroacupuncture: 100Hz responder: no;strain: Sprague-Dawley sample type: control -2.3646
GSM753505 100Hz_NR_Arc2 rat strain: Sprague-Dawley electroacupuncture: 100Hz responder: no;strain: Sprague-Dawley sample type: control 0.0
GSM753506 100Hz_NR_Arc3 rat strain: Sprague-Dawley electroacupuncture: 100Hz responder: no;strain: Sprague-Dawley sample type: control -1.0704

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 0.214957739
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 -0.215036925
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 -0.202129841
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 0.09085792
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 -0.022835464
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 -0.380177482
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 0.112129292
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 0.111193355
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 0.024650648
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 0.39007578
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 -0.784059166
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 0.0
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 0.0
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 0.0
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 0.0
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 0.0
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 0.0
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 -0.609034286
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 -2.101853213
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 -0.045755236
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 -0.149658143
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 0.154317478
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 -0.143833322
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 -0.490976343
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 0.030128873
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 -0.180486151
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 0.101269818
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 -0.206457837
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 -0.179784871
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 -0.191675084
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 0.064457152
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 0.770626029
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 -1.426598348
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 -0.371542459
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 -0.730104403
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 -0.836570465
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 1.013904422
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 -0.308771924
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 -0.403133273