Acupuncture anesthesia

Gene symbol: Vdac1

Organism: Rattus norvegicus

Summary: Enables voltage-gated anion channel activity. Involved in mitochondrial calcium ion transmembrane transport. Located in mitochondrial outer membrane and synaptic vesicle. Part of protein-containing complex. Used to study visual epilepsy. Human ortholog(s) of this gene implicated in prostate cancer. Orthologous to human VDAC1 (voltage dependent anion channel 1). [provided by Alliance of Genome Resources, Apr 2022]

NCBI gene ID: 83529 Ensembl:ENSRNOG00000006375 AllianceGenome:RGD:621575

GO Annotation

Category	Term ID	Term description
Process	GO:0001662	Behavioral fear response
Process	GO:0002209	Behavioral defense response
Process	GO:0003008	System process
Process	GO:0006810	Transport
Process	GO:0006811	Ion transport
Process	GO:0006812	Cation transport
Process	GO:0006816	Calcium ion transport
Process	GO:0006820	Anion transport
Process	GO:0006851	Mitochondrial calcium ion transmembrane transport
Process	GO:0006915	Apoptotic process
Process	GO:0006950	Response to stress
Process	GO:0006952	Defense response
Process	GO:0007154	Cell communication
Process	GO:0007267	Cell-cell signaling
Process	GO:0007268	Chemical synaptic transmission
Process	GO:0007270	Neuron-neuron synaptic transmission
Process	GO:0007610	Behavior
Process	GO:0007611	Learning or memory
Process	GO:0007612	Learning
Process	GO:0008219	Cell death
Process	GO:0009888	Tissue development
Process	GO:0009892	Negative regulation of metabolic process
Process	GO:0009893	Positive regulation of metabolic process
Process	GO:0009894	Regulation of catabolic process
Process	GO:0009896	Positive regulation of catabolic process
Process	GO:0009987	Cellular process
Process	GO:0010506	Regulation of autophagy
Process	GO:0010508	Positive regulation of autophagy
Process	GO:0010638	Positive regulation of organelle organization
Process	GO:0010821	Regulation of mitochondrion organization
Process	GO:0010822	Positive regulation of mitochondrion organization
Process	GO:0010941	Regulation of cell death
Process	GO:0010959	Regulation of metal ion transport
Process	GO:0012501	Programmed cell death
Process	GO:0015698	Inorganic anion transport
Process	GO:0016239	Positive regulation of macroautophagy
Process	GO:0016241	Regulation of macroautophagy
Process	GO:0019222	Regulation of metabolic process
Process	GO:0023052	Signaling
Process	GO:0030001	Metal ion transport
Process	GO:0030154	Cell differentiation
Process	GO:0030855	Epithelial cell differentiation
Process	GO:0031323	Regulation of cellular metabolic process
Process	GO:0031324	Negative regulation of cellular metabolic process
Process	GO:0031325	Positive regulation of cellular metabolic process
Process	GO:0031329	Regulation of cellular catabolic process
Process	GO:0031331	Positive regulation of cellular catabolic process
Process	GO:0032501	Multicellular organismal process
Process	GO:0032502	Developmental process
Process	GO:0032879	Regulation of localization
Process	GO:0033043	Regulation of organelle organization
Process	GO:0033555	Multicellular organismal response to stress
Process	GO:0034220	Ion transmembrane transport
Process	GO:0034762	Regulation of transmembrane transport
Process	GO:0034763	Negative regulation of transmembrane transport
Process	GO:0034765	Regulation of ion transmembrane transport
Process	GO:0034766	Negative regulation of ion transmembrane transport
Process	GO:0042596	Fear response
Process	GO:0042981	Regulation of apoptotic process
Process	GO:0043066	Negative regulation of apoptotic process
Process	GO:0043067	Regulation of programmed cell death
Process	GO:0043069	Negative regulation of programmed cell death
Process	GO:0043269	Regulation of ion transport
Process	GO:0043271	Negative regulation of ion transport
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:0048584	Positive regulation of response to stimulus
Process	GO:0048856	Anatomical structure development
Process	GO:0048869	Cellular developmental process
Process	GO:0050789	Regulation of biological process
Process	GO:0050794	Regulation of cellular process
Process	GO:0050877	Nervous system process
Process	GO:0050890	Cognition
Process	GO:0050896	Response to stimulus
Process	GO:0051049	Regulation of transport
Process	GO:0051051	Negative regulation of transport
Process	GO:0051128	Regulation of cellular component organization
Process	GO:0051130	Positive regulation of cellular component organization
Process	GO:0051179	Localization
Process	GO:0051234	Establishment of localization
Process	GO:0051924	Regulation of calcium ion transport
Process	GO:0051926	Negative regulation of calcium ion transport
Process	GO:0055085	Transmembrane transport
Process	GO:0060429	Epithelium development
Process	GO:0060548	Negative regulation of cell death
Process	GO:0065007	Biological regulation
Process	GO:0070588	Calcium ion transmembrane transport
Process	GO:0080134	Regulation of response to stress
Process	GO:0080135	Regulation of cellular response to stress
Process	GO:0098655	Cation transmembrane transport
Process	GO:0098656	Anion transmembrane transport
Process	GO:0098660	Inorganic ion transmembrane transport
Process	GO:0098662	Inorganic cation transmembrane transport
Process	GO:0098916	Anterograde trans-synaptic signaling
Process	GO:0099536	Synaptic signaling
Process	GO:0099537	Trans-synaptic signaling
Process	GO:0110097	Regulation of calcium import into the mitochondrion
Process	GO:0110099	Negative regulation of calcium import into the mitochondrion
Process	GO:1901524	Regulation of mitophagy
Process	GO:1901526	Positive regulation of mitophagy
Process	GO:1903146	Regulation of autophagy of mitochondrion
Process	GO:1903169	Regulation of calcium ion transmembrane transport
Process	GO:1903170	Negative regulation of calcium ion transmembrane transport
Process	GO:1903599	Positive regulation of autophagy of mitochondrion
Process	GO:1904062	Regulation of cation transmembrane transport
Process	GO:1904063	Negative regulation of cation transmembrane transport
Process	GO:1905089	Regulation of parkin-mediated stimulation of mitophagy in response to mitochondrial depolarization
Process	GO:1905091	Positive regulation of parkin-mediated stimulation of mitophagy in response to mitochondrial depolarization
Process	GO:1990542	Mitochondrial transmembrane transport
Process	GO:2000377	Regulation of reactive oxygen species metabolic process
Process	GO:2000378	Negative regulation of reactive oxygen species metabolic process
Component	GO:0005622	Intracellular anatomical structure
Component	GO:0005737	Cytoplasm
Component	GO:0005739	Mitochondrion
Component	GO:0005740	Mitochondrial envelope
Component	GO:0005741	Mitochondrial outer membrane
Component	GO:0005757	Mitochondrial permeability transition pore complex
Component	GO:0005759	Mitochondrial matrix
Component	GO:0005886	Plasma membrane
Component	GO:0008021	Synaptic vesicle
Component	GO:0009295	Nucleoid
Component	GO:0012505	Endomembrane system
Component	GO:0016020	Membrane
Component	GO:0016021	Integral component of membrane
Component	GO:0019867	Outer membrane
Component	GO:0030054	Cell junction
Component	GO:0030133	Transport vesicle
Component	GO:0031090	Organelle membrane
Component	GO:0031224	Intrinsic component of membrane
Component	GO:0031410	Cytoplasmic vesicle
Component	GO:0031966	Mitochondrial membrane
Component	GO:0031967	Organelle envelope
Component	GO:0031968	Organelle outer membrane
Component	GO:0031974	Membrane-enclosed lumen
Component	GO:0031975	Envelope
Component	GO:0031982	Vesicle
Component	GO:0032991	Protein-containing complex
Component	GO:0042645	Mitochondrial nucleoid
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:0045121	Membrane raft
Component	GO:0045202	Synapse
Component	GO:0046930	Pore complex
Component	GO:0070013	Intracellular organelle lumen
Component	GO:0070382	Exocytic vesicle
Component	GO:0071944	Cell periphery
Component	GO:0097708	Intracellular vesicle
Component	GO:0098588	Bounding membrane of organelle
Component	GO:0098793	Presynapse
Component	GO:0098796	Membrane protein complex
Component	GO:0098798	Mitochondrial protein-containing complex
Component	GO:0098857	Membrane microdomain
Component	GO:0099503	Secretory vesicle
Component	GO:0110165	Cellular anatomical entity
Function	GO:0000166	Nucleotide binding
Function	GO:0005215	Transporter activity
Function	GO:0005216	Ion channel activity
Function	GO:0005244	Voltage-gated ion channel activity
Function	GO:0005253	Anion channel activity
Function	GO:0005261	Cation channel activity
Function	GO:0005262	Calcium channel activity
Function	GO:0005488	Binding
Function	GO:0005496	Steroid binding
Function	GO:0005515	Protein binding
Function	GO:0005543	Phospholipid binding
Function	GO:0008289	Lipid binding
Function	GO:0008308	Voltage-gated anion channel activity
Function	GO:0008324	Cation transmembrane transporter activity
Function	GO:0008509	Anion transmembrane transporter activity
Function	GO:0015075	Ion transmembrane transporter activity
Function	GO:0015085	Calcium ion transmembrane transporter activity
Function	GO:0015103	Inorganic anion transmembrane transporter activity
Function	GO:0015267	Channel activity
Function	GO:0015288	Porin activity
Function	GO:0015318	Inorganic molecular entity transmembrane transporter activity
Function	GO:0015485	Cholesterol binding
Function	GO:0019899	Enzyme binding
Function	GO:0019900	Kinase binding
Function	GO:0019901	Protein kinase binding
Function	GO:0022803	Passive transmembrane transporter activity
Function	GO:0022829	Wide pore channel activity
Function	GO:0022832	Voltage-gated channel activity
Function	GO:0022836	Gated channel activity
Function	GO:0022857	Transmembrane transporter activity
Function	GO:0022890	Inorganic cation transmembrane transporter activity
Function	GO:0031210	Phosphatidylcholine binding
Function	GO:0032934	Sterol binding
Function	GO:0033218	Amide binding
Function	GO:0036094	Small molecule binding
Function	GO:0043167	Ion binding
Function	GO:0043169	Cation binding
Function	GO:0043178	Alcohol binding
Function	GO:0044325	Transmembrane transporter binding
Function	GO:0044877	Protein-containing complex binding
Function	GO:0046625	Sphingolipid binding
Function	GO:0046873	Metal ion transmembrane transporter activity
Function	GO:0050997	Quaternary ammonium group binding
Function	GO:0097001	Ceramide binding
Function	GO:0097159	Organic cyclic compound binding
Function	GO:1901265	Nucleoside phosphate binding
Function	GO:1901363	Heterocyclic compound binding

Pathway annotation

Category	Term ID	Term description
RCTM	RNO-1428517	The citric acid (TCA) cycle and respiratory electron transport
RCTM	RNO-1430728	Metabolism
RCTM	RNO-1632852	Macroautophagy
RCTM	RNO-392499	Metabolism of proteins
RCTM	RNO-5205647	Mitophagy
RCTM	RNO-5205685	PINK1-PRKN Mediated Mitophagy
RCTM	RNO-5688426	Deubiquitination
RCTM	RNO-5689880	Ub-specific processing proteases
RCTM	RNO-597592	Post-translational protein modification
RCTM	RNO-70268	Pyruvate metabolism
RCTM	RNO-71406	Pyruvate metabolism and Citric Acid (TCA) cycle
RCTM	RNO-9612973	Autophagy
RCTM	RNO-9663891	Selective autophagy
KEGG	rno04020	Calcium signaling pathway
KEGG	rno04022	cGMP-PKG signaling pathway
KEGG	rno04217	Necroptosis
KEGG	rno04218	Cellular senescence
KEGG	rno04613	Neutrophil extracellular trap formation
KEGG	rno04621	NOD-like receptor signaling pathway
KEGG	rno04979	Cholesterol metabolism
KEGG	rno05010	Alzheimer disease
KEGG	rno05012	Parkinson disease
KEGG	rno05014	Amyotrophic lateral sclerosis
KEGG	rno05016	Huntington disease
KEGG	rno05017	Spinocerebellar ataxia
KEGG	rno05020	Prion disease
KEGG	rno05022	Pathways of neurodegeneration - multiple diseases
KEGG	rno05164	Influenza A
KEGG	rno05166	Human T-cell leukemia virus 1 infection
KEGG	rno05208	Chemical carcinogenesis - reactive oxygen species
KEGG	rno05415	Diabetic cardiomyopathy

Expression profile of Vdac1 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	16.308588
GSM2685202	MX2	tissue: Myocardium gender: female	16.101582
GSM2685203	MX3	tissue: Myocardium gender: female	16.368538
GSM2685204	MX4	tissue: Myocardium gender: male	16.522726
GSM2685205	DZ1	tissue: Myocardium gender: male	16.464146
GSM2685206	DZ2	tissue: Myocardium gender: male	16.39039
GSM2685207	DZ3	tissue: Myocardium gender: female	16.54699
GSM2685208	DZ4	tissue: Myocardium gender: female	16.48865
GSM2685209	JJ1	tissue: Myocardium gender: male	16.46811
GSM2685210	JJ2	tissue: Myocardium gender: female	16.183851
GSM2685211	JJ3	tissue: Myocardium gender: female	16.12968
GSM2685212	JJ4	tissue: Myocardium gender: male	16.234135
GSM2685213	NG1	tissue: Myocardium gender: male	16.381397
GSM2685214	NG2	tissue: Myocardium gender: female	16.378576
GSM2685215	NG3	tissue: Myocardium gender: male	16.44396
GSM2685216	NG4	tissue: Myocardium gender: female	16.341795
GSM2685217	YL1	tissue: Myocardium gender: male	16.289494
GSM2685218	YL2	tissue: Myocardium gender: male	16.44732
GSM2685219	YL3	tissue: Myocardium gender: female	16.368538
GSM2685220	YL4	tissue: Myocardium gender: female	16.406729
GSM2685221	QC1	tissue: Myocardium gender: male	16.198908
GSM2685222	QC2	tissue: Myocardium gender: male	16.078287
GSM2685223	QC3	tissue: Myocardium gender: female	16.159689
GSM2685224	QC4	tissue: Myocardium gender: female	16.341795

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	7.902722926
GSM4058985	Control_2	strain: Sprague-Dawley tissue: Lumbar segment of spinal cord	7.832495664
GSM4058986	Control_3	strain: Sprague-Dawley tissue: Lumbar segment of spinal cord	7.799861453
GSM4058987	Lidocaine_1	strain: Sprague-Dawley tissue: Lumbar segment of spinal cord	7.591699126
GSM4058988	Lidocaine_2	strain: Sprague-Dawley tissue: Lumbar segment of spinal cord	7.577380304
GSM4058989	Lidocaine_3	strain: Sprague-Dawley tissue: Lumbar segment of spinal cord	7.448092296

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	1281.0
GSM4108998	Sample 2 Isoflurane sepsis	anesthetic background: Isoflurane strain: Sprague-Dawley age: 10 weeks old sepsis/control: sepsis gender: male	1436.0
GSM4108999	Sample 3 Isoflurane sepsis	anesthetic background: Isoflurane strain: Sprague-Dawley age: 10 weeks old sepsis/control: sepsis gender: male	2149.0
GSM4109000	Sample 4 Isoflurane sepsis	anesthetic background: Isoflurane strain: Sprague-Dawley age: 10 weeks old sepsis/control: sepsis gender: male	903.0
GSM4109001	Sample 5 Isoflurane control	anesthetic background: Isoflurane strain: Sprague-Dawley age: 10 weeks old sepsis/control: control gender: male	1662.0
GSM4109002	Sample 6 Isoflurane control	anesthetic background: Isoflurane strain: Sprague-Dawley age: 10 weeks old sepsis/control: control gender: male	1574.0
GSM4109003	Sample 7 Isoflurane control	anesthetic background: Isoflurane strain: Sprague-Dawley age: 10 weeks old sepsis/control: control gender: male	1624.0
GSM4109004	Sample 8 Isoflurane control	anesthetic background: Isoflurane strain: Sprague-Dawley age: 10 weeks old sepsis/control: control gender: male	3884.0
GSM4109005	Sample9 Propofol sepsis	anesthetic background: Propofol strain: Sprague-Dawley age: 10 weeks old sepsis/control: sepsis gender: male	1110.0
GSM4109006	Sample10 Propofol sepsis	anesthetic background: Propofol strain: Sprague-Dawley age: 10 weeks old sepsis/control: sepsis gender: male	1233.0
GSM4109007	Sample11 Propofol sepsis	anesthetic background: Propofol strain: Sprague-Dawley age: 10 weeks old sepsis/control: sepsis gender: male	1111.0
GSM4109008	Sample12 Propofol sepsis	anesthetic background: Propofol strain: Sprague-Dawley age: 10 weeks old sepsis/control: sepsis gender: male	2047.0
GSM4109009	Sample13 Propofol control	anesthetic background: Propofol strain: Sprague-Dawley age: 10 weeks old sepsis/control: control gender: male	1135.0
GSM4109010	Sample14 Propofol control	anesthetic background: Propofol strain: Sprague-Dawley age: 10 weeks old sepsis/control: control gender: male	1372.0
GSM4109011	Sample 15 Propofol control	anesthetic background: Propofol strain: Sprague-Dawley age: 10 weeks old sepsis/control: control gender: male	1643.0
GSM4109012	Sample16 Propofol control	anesthetic background: Propofol strain: Sprague-Dawley age: 10 weeks old sepsis/control: control gender: male	1437.0

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	9.207583
GSM4134286	Brain_Control_rep2	strain: Sprague-Dawley age: 18-month old treatment: control tissue: hippocampus	9.094193
GSM4134287	Brain_Control_rep3	strain: Sprague-Dawley age: 18-month old treatment: control tissue: hippocampus	9.057285
GSM4134288	Brain_Sevoflurane_rep1	strain: Sprague-Dawley age: 18-month old treatment: sevoflurane anesthesia tissue: hippocampus	8.990307
GSM4134289	Brain_Sevoflurane_rep2	strain: Sprague-Dawley age: 18-month old treatment: sevoflurane anesthesia tissue: hippocampus	9.25913
GSM4134290	Brain_Sevoflurane_rep3	strain: Sprague-Dawley age: 18-month old treatment: sevoflurane anesthesia tissue: hippocampus	9.230578

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	209.114
GSM4276357	dhsc03	strain: Sprague Dawley tissue: DHSC treatment: CCI	186.076
GSM4276358	dhsc05	strain: Sprague Dawley tissue: DHSC treatment: CCI	213.011
GSM4276359	dhsc13	strain: Sprague Dawley tissue: DHSC treatment: SHAM	219.1
GSM4276360	dhsc15	strain: Sprague Dawley tissue: DHSC treatment: SHAM	233.831

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	15.3463
GSM5746333	LHb, O2, 60mins	brain region: the lateral habenula (LHb) treatment: O2	15.4232
GSM5746334	MHb, Sevoflurane, 60mins	brain region: the medial habenula (MHb) treatment: Sevoflurane	16.123
GSM5746335	MHb, O2, 60mins	brain region: the medial habenula (MHb) treatment: O2	16.0382
GSM5746336	Sol, Sevoflurane, 60mins	brain region: the solitary nucleus (Sol) treatment: Sevoflurane	14.7971
GSM5746337	Sol, O2, 60mins	brain region: the solitary nucleus (Sol) treatment: O2	14.9265
GSM5746338	Mve, Sevoflurane, 60mins	brain region: the medial vestibular nucleus (MVe) treatment: Sevoflurane	15.678
GSM5746339	Mve, O2, 60mins	brain region: the medial vestibular nucleus (MVe) treatment: O2	15.4759
GSM5746340	LHb, Propofol, 60mins	brain region: the lateral habenula (LHb) treatment: Propofol	15.3072
GSM5746341	LHb, Intralipos, 60mins	brain region: the lateral habenula (LHb) treatment: Intralipos	15.2993
GSM5746342	MHb, Propofol, 60mins	brain region: the medial habenula (MHb) treatment: Propofol	15.9531
GSM5746343	MHb, Intralipos, 60mins	brain region: the medial habenula (MHb) treatment: Intralipos	16.0581
GSM5746344	Sol, Propofol, 60mins	brain region: the solitary nucleus (Sol) treatment: Propofol	14.8732
GSM5746345	Sol, Intralipos, 60mins	brain region: the solitary nucleus (Sol) treatment: Intralipos	14.6412
GSM5746346	MVe, Propofol, 60mins	brain region: the medial vestibular nucleus (MVe) treatment: Propofol	15.8545
GSM5746347	MVe, Intralipos, 60mins	brain region: the medial vestibular nucleus (MVe) treatment: Intralipos	15.6902

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.	-0.015
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.	-0.36
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.	0.36
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.	-0.242
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.	-0.02
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.	0.232
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.	0.059
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.	-0.344
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.	-0.268
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.	-0.221
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.	-3.123
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.	-0.142
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.	-0.17
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.	0.219
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	-2.758
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.	-0.154
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.	1.731
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.	-0.762
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.	0.236

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)	1.15537273
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)	-0.322149428
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)	-0.149451471
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)	0.559853543
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)	0.035877609
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)	0.252801851
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)	-0.017469041
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)	-0.203922053
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)	0.410006498
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)	0.427454171
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)	0.130381512
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)	0.889297482
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)	1.094069559
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)	0.85670681
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)	-0.15415258
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)	0.598744671
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)	0.6743023
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)	1.117280712
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)	-0.504943649
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)	-0.131245827

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	2635.0
GSM7383520	ww02_Saline_Saline	tissue: Brain / mPFC pain: Saline drug: Saline	3159.0
GSM7383521	ww03_Saline_Saline	tissue: Brain / mPFC pain: Saline drug: Salin	2801.0
GSM7383522	ww05_Saline_Saline	tissue: Brain / mPFC pain: Saline drug: Saline	2788.0
GSM7383523	ww06_Saline_Saline	tissue: Brain / mPFC pain: Saline drug: Salin	2459.0
GSM7383524	ww07_Saline_Saline	tissue: Brain / mPFC pain: Saline drug: Saline	2388.0
GSM7383525	ww08_Saline_Saline	tissue: Brain / mPFC pain: Saline drug: Salin	2982.0
GSM7383526	ww10_Saline_Saline	tissue: Brain / mPFC pain: Saline drug: Saline	2571.0
GSM7383527	ww12_Saline_OXY	tissue: Brain / mPFC pain: Saline drug: OXY	2167.0
GSM7383528	ww13_Saline_OXY	tissue: Brain / mPFC pain: Saline drug: OXY	3857.0
GSM7383529	ww14_Saline_OXY	tissue: Brain / mPFC pain: Saline drug: OXY	2573.0
GSM7383530	ww15_Saline_OXY	tissue: Brain / mPFC pain: Saline drug: OXY	2975.0
GSM7383531	ww16_Saline_OXY	tissue: Brain / mPFC pain: Saline drug: OXY	2824.0
GSM7383532	ww17_Saline_OXY	tissue: Brain / mPFC pain: Saline drug: OXY	3816.0
GSM7383533	ww18_Saline_OXY	tissue: Brain / mPFC pain: Saline drug: OXY	3437.0
GSM7383534	ww20_Saline_OXY	tissue: Brain / mPFC pain: Saline drug: OXY	2265.0
GSM7383535	ww21_CFA_Saline	tissue: Brain / mPFC pain: CFA drug: Saline	2988.0
GSM7383536	ww22_CFA_Saline	tissue: Brain / mPFC pain: CFA drug: Saline	2865.0
GSM7383537	ww23_CFA_Saline	tissue: Brain / mPFC pain: CFA drug: Saline	2169.0
GSM7383538	ww24_CFA_Saline	tissue: Brain / mPFC pain: CFA drug: Saline	2153.0
GSM7383539	ww26_CFA_Saline	tissue: Brain / mPFC pain: CFA drug: Saline	2657.0
GSM7383540	ww27_CFA_Saline	tissue: Brain / mPFC pain: CFA drug: Saline	4184.0
GSM7383541	ww28_CFA_Saline	tissue: Brain / mPFC pain: CFA drug: Saline	2994.0
GSM7383542	ww30_CFA_Saline	tissue: Brain / mPFC pain: CFA drug: Saline	2725.0
GSM7383543	ww31_CFA_OXY	tissue: Brain / mPFC pain: CFA drug: OXY	3003.0
GSM7383544	ww32_CFA_OXY	tissue: Brain / mPFC pain: CFA drug: OXY	1741.0
GSM7383545	ww34_CFA_OXY	tissue: Brain / mPFC pain: CFA drug: OXY	3131.0
GSM7383546	ww35_CFA_OXY	tissue: Brain / mPFC pain: CFA drug: OXY	2862.0
GSM7383547	ww36_CFA_OXY	tissue: Brain / mPFC pain: CFA drug: OXY	3293.0
GSM7383548	ww37_CFA_OXY	tissue: Brain / mPFC pain: CFA drug: OXY	3523.0
GSM7383549	ww38_CFA_OXY	tissue: Brain / mPFC pain: CFA drug: OXY	3304.0
GSM7383550	www09_Saline_Saline	tissue: Brain / mPFC pain: Saline drug: Saline	3730.0
GSM7383551	www19_Saline_OXY	tissue: Brain / mPFC pain: Saline drug: OXY	3397.0
GSM7383552	www29_CFA_Saline	tissue: Brain / mPFC pain: CFA drug: Saline	2806.0
GSM7383553	www33_CFA_OXY	tissue: Brain / mPFC pain: CFA drug: OXY	3305.0
GSM7383554	www39_CFA_OXY	tissue: Brain / mPFC pain: CFA drug: OXY	1897.0

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	136.650391
GSM7816144	Liver, Anesthetized with sevoflurane for 6 h	tissue: liver genotype: wild type treatment: Anesthetized with sevoflurane for 6 h	156.258209
GSM7816145	Liver, Control for DesAnes	tissue: liver genotype: wild type treatment: Control for DesAnes	131.7742
GSM7816146	Liver, Anesthetized with desflurane for 6 h	tissue: liver genotype: wild type treatment: Anesthetized with desflurane for 6 h	136.28244

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;	-0.14750000000000002
GSM61796	Cell Culture Exposure (control2)	Cy3; Cy5	0.05345
GSM61797	Cell Culture Exposure (control3)	Cy3; Cy5	-0.0796
GSM61798	Cell Culture Exposure (1MAC Halo1)	Cy3; Cy5	0.259
GSM61799	Cell Culture Exposure (1MAC Halo2)	Cy3; Cy5	-0.01656
GSM61800	Cell Culture Exposure (1MAC Halo3)	Cy3; Cy5	-0.15250000000000002
GSM61801	Cell Culture Exposure (3MAC Halo1)	Cy3; Cy5	-0.0802
GSM61802	Cell Culture Exposure (3MAC Halo2)	Cy3; Cy5	-0.0754
GSM61803	Cell Culture Exposure (3MAC Halo3)	Cy3; Cy5	0.049600000000000005
GSM61804	Cell Culture Exposure (3MAC ISO1)	Cy3; Cy5	-0.014435
GSM61805	Cell Culture Exposure (3MAC ISO2)	Cy3; Cy5	0.04295
GSM61806	Cell Culture Exposure (3MAC ISO3)	Cy3; Cy5	-0.14400000000000002

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	0.1094
GSM753496	2Hz_HR_Arc2 rat	strain: Sprague-Dawley electroacupuncture: 2Hz responder: high;strain: Sprague-Dawley sample type: control	0.2026
GSM753497	2Hz_HR_Arc3 rat	strain: Sprague-Dawley electroacupuncture: 2Hz responder: high;strain: Sprague-Dawley sample type: control	0.3978
GSM753498	2Hz_NR_Arc1 rat	strain: Sprague-Dawley electroacupuncture: 2Hz responder: no; strain: Sprague-Dawley sample type: control	-0.2892
GSM753499	2Hz_NR_Arc2 rat	strain: Sprague-Dawley electroacupuncture: 2Hz responder: no; strain: Sprague-Dawley sample type: control	0.2481
GSM753500	2Hz_NR_Arc3 rat	strain: Sprague-Dawley electroacupuncture: 2Hz responder: no; strain: Sprague-Dawley sample type: control	0.1313
GSM753501	100Hz_HR_Arc1 rat	strain: Sprague-Dawley electroacupuncture: 100Hz responder: high;strain: Sprague-Dawley sample type: control	0.3383
GSM753502	100Hz_HR_Arc2 rat	strain: Sprague-Dawley electroacupuncture: 100Hz responder: high;strain: Sprague-Dawley sample type: control	-0.2821
GSM753503	100Hz_HR_Arc3 rat	strain: Sprague-Dawley electroacupuncture: 100Hz responder: high;strain: Sprague-Dawley sample type: control	0.1943
GSM753504	100Hz_NR_Arc1 rat	strain: Sprague-Dawley electroacupuncture: 100Hz responder: no;strain: Sprague-Dawley sample type: control	0.2311
GSM753505	100Hz_NR_Arc2 rat	strain: Sprague-Dawley electroacupuncture: 100Hz responder: no;strain: Sprague-Dawley sample type: control	0.2671
GSM753506	100Hz_NR_Arc3 rat	strain: Sprague-Dawley electroacupuncture: 100Hz responder: no;strain: Sprague-Dawley sample type: control	0.2498

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	11.500807
GSM1303241	DRG RVM2	strain: sprague-dawley age: 3 months tissue: dorsal root ganglion	11.476068
GSM1303242	DRG RVM3	strain: sprague-dawley age: 3 months tissue: dorsal root ganglion	11.467242
GSM1303243	DRG RVM7	strain: sprague-dawley age: 3 months tissue: dorsal root ganglion	11.360912
GSM1303244	DRG RVOx2	strain: sprague-dawley age: 3 months tissue: dorsal root ganglion	11.231078
GSM1303245	DRG RVOx3	strain: sprague-dawley age: 3 months tissue: dorsal root ganglion	11.514848
GSM1303246	DRG RVOx5	strain: sprague-dawley age: 3 months tissue: dorsal root ganglion	11.272761
GSM1303247	DRG RVOx7	strain: sprague-dawley age: 3 months tissue: dorsal root ganglion	11.384184
GSM1303248	DRG RVS4	strain: sprague-dawley age: 3 months tissue: dorsal root ganglion	11.502917
GSM1303249	DRG RVS5	strain: sprague-dawley age: 3 months tissue: dorsal root ganglion	11.314985
GSM1303250	DRG RVS6	strain: sprague-dawley age: 3 months tissue: dorsal root ganglion	11.354581
GSM1303251	DRG RVS7	strain: sprague-dawley age: 3 months tissue: dorsal root ganglion	11.307496
GSM1303252	DRG RSM1	strain: sprague-dawley age: 3 months tissue: dorsal root ganglion	11.187851
GSM1303253	DRG RSM2	strain: sprague-dawley age: 3 months tissue: dorsal root ganglion	11.379968
GSM1303254	DRG RSM4	strain: sprague-dawley age: 3 months tissue: dorsal root ganglion	11.314985
GSM1303255	DRG RSM5	strain: sprague-dawley age: 3 months tissue: dorsal root ganglion	11.498319
GSM1303256	DRG RSOx1	strain: sprague-dawley age: 3 months tissue: dorsal root ganglion	11.255249
GSM1303257	DRG RSOx2	strain: sprague-dawley age: 3 months tissue: dorsal root ganglion	11.303461
GSM1303258	DRG RSOx3	strain: sprague-dawley age: 3 months tissue: dorsal root ganglion	11.418926
GSM1303259	DRG RSOx4	strain: sprague-dawley age: 3 months tissue: dorsal root ganglion	11.505002
GSM1303260	DRG RSS1	strain: sprague-dawley age: 3 months tissue: dorsal root ganglion	11.180913
GSM1303261	DRG RSS2	strain: sprague-dawley age: 3 months tissue: dorsal root ganglion	11.491399
GSM1303262	DRG RSS3	strain: sprague-dawley age: 3 months tissue: dorsal root ganglion	11.309907
GSM1303263	DRG RSS6	strain: sprague-dawley age: 3 months tissue: dorsal root ganglion	11.320068

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	17984.88
GSM1339444	EA (electroacupuncture) skeletal muscle	strain: Wistar age: 8-10 week-old gender: Male	16790.14

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	0.499965041
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	0.253833791
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	0.392432948
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	0.24691037
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	0.306642414
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	0.138218631
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	0.376684601
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	0.14459142
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	0.15637622
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	0.181143258
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	0.557523799
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	0.396121044
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	0.317468871
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	0.35351058
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	0.21825867
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	0.021864078
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	0.328765033
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	0.116180107
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	0.221082239
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	0.595960198
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	-0.216122159
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	0.308070666
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	0.356184218
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	0.189815041
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	0.314486126
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	0.426208425
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	0.105738053
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	0.030308841
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	0.288023513
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	1.266607364
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	0.6463726
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	0.33399232
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	0.242752575
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	0.488349775
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	0.477876252
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	0.43100423
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	0.426492092
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	0.301940589
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	0.172095441