DIP2C | ENSG00000151240 | NCBI 22982

Details for: DIP2C

Gene ID: 22982

Gene Type: Protein-coding - A gene that serves as a template for producing a messenger RNA (mRNA) molecule, which is then translated into a functional protein.

Symbol: DIP2C

Ensembl ID: ENSG00000151240

Description: disco interacting protein 2 homolog C

Cell Significance Landscape

Display Count:

Associated with

Biological_process
(GO:0008150)
Cellular_component
(GO:0005575)
Molecular_function
(GO:0003674)

Significant Cells

Cell Significance Index (CSI) scores for the chosen context(s)

VIP GABAergic cortical interneuron CL4023016

CSI 50.39

rCSI 60.19%

PRS 64.65
pvalb GABAergic cortical interneuron CL4023018

CSI 48.64

rCSI 60.51%

PRS 62.34
sst GABAergic cortical interneuron CL4023017

CSI 44.06

rCSI 56.8%

PRS 65.65
sncg GABAergic cortical interneuron CL4023015

CSI 37.04

rCSI 59.56%

PRS 65.97
caudal ganglionic eminence derived cortical interneuron CL4023064

CSI 36.23

rCSI 63.98%

PRS 64
lamp5 GABAergic cortical interneuron CL4023011

CSI 35.55

rCSI 59.68%

PRS 64.54
retinal ganglion cell CL0000740

CSI 26.14

rCSI 57.75%

PRS 68.14
cardiac muscle cell CL0000746

CSI 25.11

rCSI 36.03%

PRS 71.98
L2/3-6 intratelencephalic projecting glutamatergic neuron CL4023040

CSI 23.85

rCSI 57.97%

PRS 62.47
chandelier pvalb GABAergic cortical interneuron CL4023036

CSI 19.36

rCSI 60.56%

PRS 68.45
adipocyte CL0000136

CSI 19.32

rCSI 24.81%

PRS 72.34
L6b glutamatergic cortical neuron CL4023038

CSI 19.03

rCSI 59.48%

PRS 66.19
neuron CL0000540

CSI 18.51

rCSI 49.29%

PRS 69.44
L4 intratelencephalic projecting glutamatergic neuron CL4030063

CSI 18.37

rCSI 43.94%

PRS 68.98
ON-bipolar cell CL0000749

CSI 17.4

rCSI 25.86%

PRS 81.6
L2/3 intratelencephalic projecting glutamatergic neuron CL4030059

CSI 17.11

rCSI 37.13%

PRS 69.62
L5 extratelencephalic projecting glutamatergic cortical neuron CL4023041

CSI 16.33

rCSI 58.77%

PRS 62.44
GABAergic amacrine cell CL4030027

CSI 16.02

rCSI 54.88%

PRS 68.17
kidney loop of Henle thin descending limb epithelial cell CL1001111

CSI 15.79

rCSI 22.38%

PRS 78.75
goblet cell CL0000160

CSI 15.64

rCSI 14.78%

PRS 80.4
glioblast CL0000030

CSI 15.56

rCSI 24.83%

PRS 73.57
near-projecting glutamatergic cortical neuron CL4023012

CSI 15.39

rCSI 58.16%

PRS 65.06
differentiation-committed oligodendrocyte precursor CL4023059

CSI 15.26

rCSI 27.72%

PRS 73.73
neuroblast (sensu Nematoda and Protostomia) CL0000338

CSI 15.14

rCSI 17.48%

PRS 74.18
progenitor cell CL0011026

CSI 15.09

rCSI 32.09%

PRS 75.95
retinal bipolar neuron CL0000748

CSI 14.86

rCSI 27.83%

PRS 70.63
radial glial cell CL0000681

CSI 14.42

rCSI 20.04%

PRS 80.36
vascular leptomeningeal cell CL4023051

CSI 14.27

rCSI 25.03%

PRS 76.19
retinal rod cell CL0000604

CSI 14.2

rCSI 25.03%

PRS 77.26
renal principal cell CL0005009

CSI 13.42

rCSI 34.88%

PRS 82.26
oligodendrocyte precursor cell CL0002453

CSI 13.25

rCSI 29.16%

PRS 64.37
astrocyte of the cerebral cortex CL0002605

CSI 13.25

rCSI 29.71%

PRS 65.34
neural crest cell CL0011012

CSI 12.77

rCSI 10.09%

PRS 71.35
interneuron CL0000099

CSI 12.71

rCSI 25.51%

PRS 72.72
L5/6 near-projecting glutamatergic neuron CL4030067

CSI 12.7

rCSI 41.73%

PRS 67.87
kidney interstitial alternatively activated macrophage CL1000695

CSI 12.4

rCSI 32.33%

PRS 83.01
hepatocyte CL0000182

CSI 12

rCSI 21.47%

PRS 81.23
inhibitory interneuron CL0000498

CSI 11.98

rCSI 27.65%

PRS 70.18
oligodendrocyte CL0000128

CSI 11.89

rCSI 35.13%

PRS 73.15
neuroblast (sensu Vertebrata) CL0000031

CSI 11.33

rCSI 14.53%

PRS 78.06
rod bipolar cell CL0000751

CSI 11.22

rCSI 20.17%

PRS 75.46
cerebral cortex neuron CL0010012

CSI 11.06

rCSI 45.07%

PRS 73.97
epithelial cell of proximal tubule CL0002306

CSI 10.92

rCSI 26.66%

PRS 74.4
ependymal cell CL0000065

CSI 10.81

rCSI 21.94%

PRS 60.89
BEST4+ enteroycte CL4030026

CSI 10.35

rCSI 12.87%

PRS 82.69
contractile cell CL0000183

CSI 10.17

rCSI 30.01%

PRS 81.03
kidney collecting duct principal cell CL1001431

CSI 10.02

rCSI 50.46%

PRS 79.43
blood vessel endothelial cell CL0000071

CSI 9.98

rCSI 20.7%

PRS 78.81
neural cell CL0002319

CSI 9.92

rCSI 37.43%

PRS 65.46
basophil CL0000767

CSI 9.82

rCSI 20.78%

PRS 91.53
ionocyte CL0005006

CSI 9.8

rCSI 10.51%

PRS 83.31
cerebellar granule cell CL0001031

CSI 9.77

rCSI 14.37%

PRS 74.97
corticothalamic-projecting glutamatergic cortical neuron CL4023013

CSI 9.68

rCSI 56.98%

PRS 65.11
lung secretory cell CL1000272

CSI 9.36

rCSI 23.17%

PRS 81.96
renal beta-intercalated cell CL0002201

CSI 9.32

rCSI 22.21%

PRS 81.94
glycinergic amacrine cell CL4030028

CSI 9.12

rCSI 23.77%

PRS 76.4
chondrocyte CL0000138

CSI 9.04

rCSI 14.38%

PRS 75.26
parietal epithelial cell CL1000452

CSI 8.73

rCSI 23.32%

PRS 74.08
peripheral nervous system neuron CL2000032

CSI 8.45

rCSI 11.52%

PRS 73.81
central nervous system neuron CL2000029

CSI 8.44

rCSI 62.03%

PRS 69.75
hepatic stellate cell CL0000632

CSI 8.34

rCSI 31.23%

PRS 74.73
cardiac endothelial cell CL0010008

CSI 8.3

rCSI 33.5%

PRS 81.94
cerebral cortex endothelial cell CL1001602

CSI 8.2

rCSI 14.18%

PRS 73.94
choroid plexus epithelial cell CL0000706

CSI 8.01

rCSI 13.11%

PRS 71.76
fibroblast of lung CL0002553

CSI 7.91

rCSI 7.36%

PRS 82.78
ciliated cell CL0000064

CSI 7.76

rCSI 12.57%

PRS 76.79
fibroblast of cardiac tissue CL0002548

CSI 7.71

rCSI 36.95%

PRS 81.94
brush cell of tracheobronchial tree CL0002075

CSI 7.55

rCSI 22.4%

PRS 89.81
Bergmann glial cell CL0000644

CSI 7.53

rCSI 10.31%

PRS 73.31
enteric smooth muscle cell CL0002504

CSI 7.51

rCSI 10.72%

PRS 82.71
small intestine goblet cell CL1000495

CSI 7.44

rCSI 16.3%

PRS 86.75
perivascular cell CL4033054

CSI 7.3

rCSI 9.97%

PRS 86.32
dopaminergic neuron CL0000700

CSI 7.23

rCSI 40.84%

PRS 68.28
basal cell CL0000646

CSI 7.21

rCSI 9.64%

PRS 80.27
amacrine cell CL0000561

CSI 7.08

rCSI 20.52%

PRS 71.66
regular atrial cardiac myocyte CL0002129

CSI 7.06

rCSI 22.73%

PRS 78.74
Schwann cell CL0002573

CSI 6.94

rCSI 19.71%

PRS 77.55
epicardial adipocyte CL1000309

CSI 6.81

rCSI 22.16%

PRS 79.69
enteroglial cell CL4040002

CSI 6.75

rCSI 35.5%

PRS 83.18
retinal pigment epithelial cell CL0002586

CSI 6.75

rCSI 13.41%

PRS 77.77
pulmonary alveolar type 2 cell CL0002063

CSI 6.7

rCSI 10.39%

PRS 85.33
kidney loop of Henle thin ascending limb epithelial cell CL1001107

CSI 6.7

rCSI 17.32%

PRS 77.53
retinal cone cell CL0000573

CSI 6.67

rCSI 10.73%

PRS 72.33
cardiac neuron CL0010022

CSI 6.63

rCSI 21.2%

PRS 79.44
glutamatergic neuron CL0000679

CSI 6.5

rCSI 13.36%

PRS 69.32
subcutaneous adipocyte CL0002521

CSI 6.47

rCSI 33.13%

PRS 84.79
alveolar type 1 fibroblast cell CL4028004

CSI 6.35

rCSI 6.95%

PRS 83.85
mesothelial cell CL0000077

CSI 6.29

rCSI 24.6%

PRS 60.69
ciliated columnar cell of tracheobronchial tree CL0002145

CSI 6.27

rCSI 14.3%

PRS 75.48
medial ganglionic eminence derived interneuron CL4023063

CSI 6.1

rCSI 60.97%

PRS 41.38
periportal region hepatocyte CL0019026

CSI 6.08

rCSI 23.64%

PRS 81.07
midzonal region hepatocyte CL0019028

CSI 5.91

rCSI 13.87%

PRS 81.72
endocardial cell CL0002350

CSI 5.79

rCSI 27.71%

PRS 78.38
kidney collecting duct intercalated cell CL1001432

CSI 5.68

rCSI 40.59%

PRS 79.48
lung pericyte CL0009089

CSI 5.65

rCSI 14.9%

PRS 88.02
neural progenitor cell CL0011020

CSI 5.63

rCSI 24.76%

PRS 70.47
glial cell CL0000125

CSI 5.5

rCSI 20.93%

PRS 73.26
enteroendocrine cell of small intestine CL0009006

CSI 5.48

rCSI 12.07%

PRS 88.66
mature astrocyte CL0002627

CSI 5.43

rCSI 23.06%

PRS 74.3
Mueller cell CL0000636

CSI 5.37

rCSI 12.27%

PRS 73.57

mesenchymal stem cell CL0000134

CSI 0.2

rCSI 2.2%

PRS 86.7%
diffuse bipolar 4 cell CL4033031

CSI 0.8

rCSI 9.6%

PRS 70.0%
stromal cell of ovary CL0002132

CSI 1.0

rCSI 2.7%

PRS 88.0%
kidney distal convoluted tubule epithelial cell CL1000849

CSI 1.1

rCSI 11.8%

PRS 78.0%
pancreatic ductal cell CL0002079

CSI 1.2

rCSI 2.3%

PRS 84.8%
luminal epithelial cell of mammary gland CL0002326

CSI 1.3

rCSI 2.4%

PRS 90.8%
corneal epithelial cell CL0000575

CSI 1.4

rCSI 4.0%

PRS 87.5%
S cone cell CL0003050

CSI 1.5

rCSI 6.5%

PRS 76.5%
neuroendocrine cell CL0000165

CSI 1.5

rCSI 5.7%

PRS 89.5%
pancreatic A cell CL0000171

CSI 1.6

rCSI 1.7%

PRS 85.0%
flat midget bipolar cell CL4033033

CSI 1.7

rCSI 11.8%

PRS 72.7%
respiratory suprabasal cell CL4033048

CSI 1.7

rCSI 2.2%

PRS 84.8%
mesangial cell CL0000650

CSI 1.8

rCSI 7.2%

PRS 89.9%
diffuse bipolar 3b cell CL4033030

CSI 1.8

rCSI 11.8%

PRS 76.4%
extravillous trophoblast CL0008036

CSI 1.8

rCSI 2.3%

PRS 80.2%
type B pancreatic cell CL0000169

CSI 1.8

rCSI 4.0%

PRS 81.4%
midbrain dopaminergic neuron CL2000097

CSI 1.9

rCSI 12.2%

PRS 77.9%
mesodermal cell CL0000222

CSI 1.9

rCSI 2.3%

PRS 80.0%
diffuse bipolar 2 cell CL4033028

CSI 2.0

rCSI 15.7%

PRS 75.6%
pancreatic D cell CL0000173

CSI 2.0

rCSI 2.0%

PRS 84.3%
alveolar adventitial fibroblast CL4028006

CSI 2.1

rCSI 3.3%

PRS 83.4%
airway submucosal gland duct basal cell CL4033024

CSI 2.1

rCSI 13.4%

PRS 86.6%
placental villous trophoblast CL2000060

CSI 2.1

rCSI 3.3%

PRS 81.0%
pulmonary artery endothelial cell CL1001568

CSI 2.2

rCSI 3.0%

PRS 89.7%
cerebral cortex pyramidal neuron CL4023111

CSI 2.3

rCSI 13.9%

PRS 86.2%
invaginating midget bipolar cell CL4033034

CSI 2.3

rCSI 13.6%

PRS 73.3%
OFFx cell CL4033036

CSI 2.3

rCSI 10.9%

PRS 73.3%
intrahepatic cholangiocyte CL0002538

CSI 2.4

rCSI 5.7%

PRS 85.1%
diffuse bipolar 1 cell CL4033027

CSI 2.4

rCSI 17.9%

PRS 72.1%
myoepithelial cell CL0000185

CSI 2.4

rCSI 6.1%

PRS 86.4%
lung ciliated cell CL1000271

CSI 2.5

rCSI 2.9%

PRS 74.5%
tissue-resident macrophage CL0000864

CSI 2.5

rCSI 11.8%

PRS 91.9%
podocyte CL0000653

CSI 2.6

rCSI 11.3%

PRS 82.5%
indirect pathway medium spiny neuron CL4023029

CSI 2.6

rCSI 61.6%

PRS 63.1%
mesenchymal cell CL0008019

CSI 2.6

rCSI 6.5%

PRS 75.6%
direct pathway medium spiny neuron CL4023026

CSI 2.6

rCSI 61.8%

PRS 62.5%
regular ventricular cardiac myocyte CL0002131

CSI 2.6

rCSI 16.2%

PRS 73.9%
starburst amacrine cell CL0004232

CSI 2.7

rCSI 22.9%

PRS 70.0%
diffuse bipolar 6 cell CL4033032

CSI 2.7

rCSI 14.3%

PRS 72.6%
epithelial cell of lower respiratory tract CL0002632

CSI 2.9

rCSI 2.3%

PRS 85.6%
endothelial cell of vascular tree CL0002139

CSI 3.0

rCSI 16.2%

PRS 78.3%
stromal cell CL0000499

CSI 3.0

rCSI 8.4%

PRS 77.1%
keratocyte CL0002363

CSI 3.0

rCSI 7.2%

PRS 84.7%
neuroplacodal cell CL0000032

CSI 3.1

rCSI 28.4%

PRS 82.4%
OFF midget ganglion cell CL4033047

CSI 3.1

rCSI 63.2%

PRS 73.0%
macroglial cell CL0000126

CSI 3.1

rCSI 8.0%

PRS 78.6%
ON midget ganglion cell CL4033046

CSI 3.1

rCSI 63.7%

PRS 71.9%
blood vessel smooth muscle cell CL0019018

CSI 3.2

rCSI 26.0%

PRS 76.6%
adventitial cell CL0002503

CSI 3.2

rCSI 7.7%

PRS 85.6%
GABAergic interneuron CL0011005

CSI 3.5

rCSI 54.8%

PRS 83.1%
paneth cell of epithelium of small intestine CL1000343

CSI 3.6

rCSI 9.9%

PRS 88.1%
pulmonary alveolar type 1 cell CL0002062

CSI 3.6

rCSI 21.0%

PRS 78.4%
tracheobronchial smooth muscle cell CL0019019

CSI 3.7

rCSI 6.5%

PRS 86.7%
mast cell CL0000097

CSI 3.7

rCSI 8.1%

PRS 85.7%
conjunctival epithelial cell CL1000432

CSI 3.8

rCSI 5.9%

PRS 81.9%
intestinal crypt stem cell of small intestine CL0009017

CSI 3.9

rCSI 10.5%

PRS 86.0%
lung neuroendocrine cell CL1000223

CSI 3.9

rCSI 5.8%

PRS 85.5%
kidney loop of Henle thick ascending limb epithelial cell CL1001106

CSI 4.2

rCSI 36.1%

PRS 76.4%
ON parasol ganglion cell CL4033052

CSI 4.4

rCSI 61.7%

PRS 73.3%
melanocyte CL0000148

CSI 4.5

rCSI 3.3%

PRS 75.7%
retinal blood vessel endothelial cell CL0002585

CSI 4.6

rCSI 7.4%

PRS 85.4%
bronchus fibroblast of lung CL2000093

CSI 4.7

rCSI 3.8%

PRS 81.4%
medium spiny neuron CL1001474

CSI 4.7

rCSI 40.6%

PRS 70.2%
GABAergic neuron CL0000617

CSI 4.7

rCSI 15.9%

PRS 66.0%
renal interstitial pericyte CL1001318

CSI 5.0

rCSI 13.8%

PRS 77.3%
diffuse bipolar 3a cell CL4033029

CSI 5.1

rCSI 34.4%

PRS 74.4%
kidney connecting tubule epithelial cell CL1000768

CSI 5.2

rCSI 13.2%

PRS 72.7%
Mueller cell CL0000636

CSI 5.4

rCSI 12.3%

PRS 73.6%
mature astrocyte CL0002627

CSI 5.4

rCSI 23.1%

PRS 74.3%
enteroendocrine cell of small intestine CL0009006

CSI 5.5

rCSI 12.1%

PRS 88.7%
glial cell CL0000125

CSI 5.5

rCSI 20.9%

PRS 73.3%
neural progenitor cell CL0011020

CSI 5.6

rCSI 24.8%

PRS 70.5%
lung pericyte CL0009089

CSI 5.7

rCSI 14.9%

PRS 88.0%
kidney collecting duct intercalated cell CL1001432

CSI 5.7

rCSI 40.6%

PRS 79.5%
endocardial cell CL0002350

CSI 5.8

rCSI 27.7%

PRS 78.4%
midzonal region hepatocyte CL0019028

CSI 5.9

rCSI 13.9%

PRS 81.7%
periportal region hepatocyte CL0019026

CSI 6.1

rCSI 23.6%

PRS 81.1%
medial ganglionic eminence derived interneuron CL4023063

CSI 6.1

rCSI 61.0%

PRS 41.4%
ciliated columnar cell of tracheobronchial tree CL0002145

CSI 6.3

rCSI 14.3%

PRS 75.5%
mesothelial cell CL0000077

CSI 6.3

rCSI 24.6%

PRS 60.7%
alveolar type 1 fibroblast cell CL4028004

CSI 6.4

rCSI 7.0%

PRS 83.9%
subcutaneous adipocyte CL0002521

CSI 6.5

rCSI 33.1%

PRS 84.8%
glutamatergic neuron CL0000679

CSI 6.5

rCSI 13.4%

PRS 69.3%
cardiac neuron CL0010022

CSI 6.6

rCSI 21.2%

PRS 79.4%
retinal cone cell CL0000573

CSI 6.7

rCSI 10.7%

PRS 72.3%
kidney loop of Henle thin ascending limb epithelial cell CL1001107

CSI 6.7

rCSI 17.3%

PRS 77.5%
pulmonary alveolar type 2 cell CL0002063

CSI 6.7

rCSI 10.4%

PRS 85.3%
retinal pigment epithelial cell CL0002586

CSI 6.8

rCSI 13.4%

PRS 77.8%
enteroglial cell CL4040002

CSI 6.8

rCSI 35.5%

PRS 83.2%
epicardial adipocyte CL1000309

CSI 6.8

rCSI 22.2%

PRS 79.7%
Schwann cell CL0002573

CSI 6.9

rCSI 19.7%

PRS 77.6%
regular atrial cardiac myocyte CL0002129

CSI 7.1

rCSI 22.7%

PRS 78.7%
amacrine cell CL0000561

CSI 7.1

rCSI 20.5%

PRS 71.7%
basal cell CL0000646

CSI 7.2

rCSI 9.6%

PRS 80.3%
dopaminergic neuron CL0000700

CSI 7.2

rCSI 40.8%

PRS 68.3%
perivascular cell CL4033054

CSI 7.3

rCSI 10.0%

PRS 86.3%
small intestine goblet cell CL1000495

CSI 7.4

rCSI 16.3%

PRS 86.8%
enteric smooth muscle cell CL0002504

CSI 7.5

rCSI 10.7%

PRS 82.7%
Bergmann glial cell CL0000644

CSI 7.5

rCSI 10.3%

PRS 73.3%
brush cell of tracheobronchial tree CL0002075

CSI 7.6

rCSI 22.4%

PRS 89.8%

Cell ID: Standard Cell Ontology term used for mapping and comparing cells across experiments. Ensures consistency in analyzing cellular functions across tissues.
Fold Change: Represents the ratio of the current Cell Significance Index to the Cell Significance Index Threshold, indicating how much the gene expression has changed compared to a baseline.
Cell Significance Index: Reflects how strongly a gene is expressed in this specific cell.

Network Configuration

Explore relationships of the current gene. Select an Interaction Source: 'ONTOLOGY' for shared pathways (GO/Reactome) or 'STRING' for protein-protein interactions. Further refine by selecting context genes and comparing Cell Significance Index (CSI) scores between baseline and target cell types and their specific contexts.

Context Genes (max 20):

Interaction Source:

Pathway Categories (for ONTOLOGY source):

Baseline Cell Type:

Baseline Cell Context(s): Comma-separated if multiple.

Target Cell Type:

Target Cell Context(s): Comma-separated if multiple.

Legend:

Query Gene
Node Color (Target Cell CSI, relative to current network):
- Very High
- High
- Medium
- Low
- Very Low
- CSI N/A
Node Size: Proportional to Target Cell CSI magnitude
STRING PPI Edge
Shared Pathway Edge (ONTOLOGY)

Loading network (please wait)...

Other Information

This section provides additional information about the gene, including a description generated by an AI language model and details about associated proteins.

Description
Proteins

## Summary [DIP2C](/details-gene/22982) (Disco Interacting Protein 2 Homolog C) is a protein-coding gene located on human chromosome 10. While its precise molecular function remains largely uncharacterized, expression data strongly indicates a significant role in the central nervous system. **Overall**, [DIP2C](/details-gene/22982) displays its highest and most specific expression across a wide range of cortical interneurons, including [VIP GABAergic cortical interneuron](/details-cell/CL4023016), [pvalb GABAergic cortical interneuron](/details-cell/CL4023018), and [sst GABAergic cortical interneuron](/details-cell/CL4023017), suggesting it may be a key factor in the development, function, or maintenance of inhibitory circuits in the brain. Its discovery and initial characterization stem from large-scale cDNA sequencing projects aimed at identifying novel human genes ([Link](https://doi.org/10.1093/dnares/6.1.63), [Link](https://doi.org/10.1038/ng1285)). ## Cellular Roles and Expression Landscape The expression profile of [DIP2C](/details-gene/22982) reveals a profound enrichment within the nervous system, particularly in inhibitory neurons of the cerebral cortex. The **Overall** analysis identifies multiple subtypes of GABAergic interneurons as the top cell types expressing this gene, with the highest significance observed in [VIP GABAergic cortical interneuron](/details-cell/CL4023016) (CSI: 50.39), [pvalb GABAergic cortical interneuron](/details-cell/CL4023018) (CSI: 48.64), [sst GABAergic cortical interneuron](/details-cell/CL4023017) (CSI: 44.06), and [caudal ganglionic eminence derived cortical interneuron](/details-cell/CL4023064) (CSI: 36.23). This consistent high expression across functionally diverse interneuron classes suggests a fundamental role in inhibitory neuron biology rather than a function specific to a single subtype. Beyond cortical interneurons, [DIP2C](/details-gene/22982) also shows significant, albeit lower, expression in other neuronal populations such as the [retinal ganglion cell](/details-cell/CL0000740) and various glutamatergic neurons, including [L2/3-6 intratelencephalic projecting glutamatergic neuron](/details-cell/CL4023040). Interestingly, notable expression is also detected in select non-neuronal cell types, including [cardiac muscle cell](/details-cell/CL0000746) and [adipocyte](/details-cell/CL0000136). This pattern suggests that while [DIP2C](/details-gene/22982) is predominantly a neural gene, its function might be linked to a fundamental cellular process that is also important in these specific peripheral tissues. ## Pathways and Molecular Function The functional annotation for [DIP2C](/details-gene/22982) is currently limited to high-level, non-specific Gene Ontology terms, such as [biological process (GO:0008150)](https://www.ebi.ac.uk/QuickGO/term/GO:0008150) and [molecular function (GO:0003674)](https://www.ebi.ac.uk/QuickGO/term/GO:0003674). These root terms do not provide insight into its specific molecular activities or the pathways it participates in. The gene was identified as part of large-scale efforts to clone and sequence novel cDNAs from the human brain, but its function has not yet been experimentally defined ([Link](https://doi.org/10.1093/dnares/9.3.99)). Its strong and specific expression pattern in diverse neuronal subtypes provides the primary evidence for its putative role in the nervous system, but the molecular mechanisms through which it acts are yet to be determined. ## Research Directions The prominent and specific expression of [DIP2C](/details-gene/22982) in cortical interneurons, coupled with its uncharacterized function, presents several avenues for future investigation. **Testable Hypotheses:** 1. [DIP2C](/details-gene/22982) is essential for the terminal differentiation or maintenance of identity of cortical interneurons. Its high expression across multiple mature subtypes suggests it may regulate a core transcriptional program or cellular process common to these inhibitory cells. 2. Given its expression in metabolically active cells like neurons, [cardiac muscle cell](/details-cell/CL0000746), and [adipocyte](/details-cell/CL0000136), [DIP2C](/details-gene/22982) may function in a conserved pathway related to energy metabolism, protein trafficking, or cytoskeletal dynamics that is particularly critical in these high-demand cell types. **Proposed Experiment:** To test the hypothesis that [DIP2C](/details-gene/22982) is critical for interneuron function, a conditional knockout of the gene could be generated in mice using a Cre-lox system with a pan-GABAergic driver line (e.g., Gad2-Cre). The resulting knockout animals could be analyzed using a combination of techniques. *In vivo* two-photon calcium imaging would reveal potential deficits in neuronal activity in awake, behaving animals. Subsequently, patch-clamp electrophysiology on cortical slices would allow for detailed characterization of intrinsic firing properties, synaptic connectivity, and plasticity of [DIP2C](/details-gene/22982)-deficient interneurons. **Therapeutic Potential:** The therapeutic potential of [DIP2C](/details-gene/22982) is currently speculative due to its unknown function. However, its highly specific expression in cortical interneurons suggests it could be a future target for disorders characterized by an imbalance of excitatory/inhibitory signaling, such as certain forms of epilepsy or schizophrenia. Any therapeutic strategy would require a deep understanding of its function to determine whether inhibition or activation is desired. Furthermore, its expression in [cardiac muscle cell](/details-cell/CL0000746) raises a significant safety concern for systemic therapies, suggesting that any approach targeting [DIP2C](/details-gene/22982) would likely necessitate brain-specific delivery mechanisms to avoid cardiotoxicity.

Disclaimer: This in-silico analysis is generated by an AI language model and may contain inaccuracies or hallucinations. However, it is cross-referenced with curated gene expression data from major biological sources. Please verify the information before use.

Genular Protein ID: 925498918

Symbol: DIP2C_HUMAN

Name: Disco-interacting protein 2 homolog C

UniProtKB Accession Codes:

Q9Y2E4 B4DPI5 Q5SS78

Database IDs:

Citations:

PubMed ID: 10231032

Title: Prediction of the coding sequences of unidentified human genes. XIII. The complete sequences of 100 new cDNA clones from brain which code for large proteins in vitro.

PubMed ID: 10231032

DOI: 10.1093/dnares/6.1.63

PubMed ID: 12168954

Title: Construction of expression-ready cDNA clones for KIAA genes: manual curation of 330 KIAA cDNA clones.

PubMed ID: 12168954

DOI: 10.1093/dnares/9.3.99

PubMed ID: 14702039

Title: Complete sequencing and characterization of 21,243 full-length human cDNAs.

PubMed ID: 14702039

DOI: 10.1038/ng1285

PubMed ID: 15164054

Title: The DNA sequence and comparative analysis of human chromosome 10.

PubMed ID: 15164054

DOI: 10.1038/nature02462

PubMed ID: 15489334

Title: The status, quality, and expansion of the NIH full-length cDNA project: the Mammalian Gene Collection (MGC).

PubMed ID: 15489334

DOI: 10.1101/gr.2596504

PubMed ID: 24275569

Title: An enzyme assisted RP-RPLC approach for in-depth analysis of human liver phosphoproteome.

PubMed ID: 24275569

DOI: 10.1016/j.jprot.2013.11.014

PubMed ID: 16959974

Title: The consensus coding sequences of human breast and colorectal cancers.

PubMed ID: 16959974

DOI: 10.1126/science.1133427

Sequence Information:

Length: 1556
Mass: 170767
Checksum: E4CA7F0719C384EA
Sequence:

MADRSLEGMA LPLEVRARLA ELELELSEGD ITQKGYEKKR SKLIGAYLPQ PPRVDQALPQ 
ERRAPVTPSS ASRYHRRRSS GSRDERYRSD VHTEAVQAAL AKHKERKMAV PMPSKRRSLV 
VQTSMDAYTP PDTSSGSEDE GSVQGDSQGT PTSSQGSINM EHWISQAIHG STTSTTSSSS 
TQSGGSGAAH RLADVMAQTH IENHSAPPDV TTYTSEHSIQ VERPQGSTGS RTAPKYGNAE 
LMETGDGVPV SSRVSAKIQQ LVNTLKRPKR PPLREFFVDD FEELLEVQQP DPNQPKPEGA 
QMLAMRGEQL GVVTNWPPSL EAALQRWGTI SPKAPCLTTM DTNGKPLYIL TYGKLWTRSM 
KVAYSILHKL GTKQEPMVRP GDRVALVFPN NDPAAFMAAF YGCLLAEVVP VPIEVPLTRK 
DAGSQQIGFL LGSCGVTVAL TSDACHKGLP KSPTGEIPQF KGWPKLLWFV TESKHLSKPP 
RDWFPHIKDA NNDTAYIEYK TCKDGSVLGV TVTRTALLTH CQALTQACGY TEAETIVNVL 
DFKKDVGLWH GILTSVMNMM HVISIPYSLM KVNPLSWIQK VCQYKAKVAC VKSRDMHWAL 
VAHRDQRDIN LSSLRMLIVA DGANPWSISS CDAFLNVFQS KGLRQEVICP CASSPEALTV 
AIRRPTDDSN QPPGRGVLSM HGLTYGVIRV DSEEKLSVLT VQDVGLVMPG AIMCSVKPDG 
VPQLCRTDEI GELCVCAVAT GTSYYGLSGM TKNTFEVFPM TSSGAPISEY PFIRTGLLGF 
VGPGGLVFVV GKMDGLMVVS GRRHNADDIV ATALAVEPMK FVYRGRIAVF SVTVLHDERI 
VIVAEQRPDS TEEDSFQWMS RVLQAIDSIH QVGVYCLALV PANTLPKTPL GGIHLSETKQ 
LFLEGSLHPC NVLMCPHTCV TNLPKPRQKQ PEIGPASVMV GNLVSGKRIA QASGRDLGQI 
EDNDQARKFL FLSEVLQWRA QTTPDHILYT LLNCRGAIAN SLTCVQLHKR AEKIAVMLME 
RGHLQDGDHV ALVYPPGIDL IAAFYGCLYA GCVPITVRPP HPQNIATTLP TVKMIVEVSR 
SACLMTTQLI CKLLRSREAA AAVDVRTWPL ILDTDDLPKK RPAQICKPCN PDTLAYLDFS 
VSTTGMLAGV KMSHAATSAF CRSIKLQCEL YPSREVAICL DPYCGLGFVL WCLCSVYSGH 
QSILIPPSEL ETNPALWLLA VSQYKVRDTF CSYSVMELCT KGLGSQTESL KARGLDLSRV 
RTCVVVAEER PRIALTQSFS KLFKDLGLHP RAVSTSFGCR VNLAICLQGT SGPDPTTVYV 
DMRALRHDRV RLVERGSPHS LPLMESGKIL PGVRIIIANP ETKGPLGDSH LGEIWVHSAH 
NASGYFTIYG DESLQSDHFN SRLSFGDTQT IWARTGYLGF LRRTELTDAN GERHDALYVV 
GALDEAMELR GMRYHPIDIE TSVIRAHKSV TECAVFTWTN LLVVVVELDG SEQEALDLVP 
LVTNVVLEEH YLIVGVVVVV DIGVIPINSR GEKQRMHLRD GFLADQLDPI YVAYNM

Genular Protein ID: 3107185043

Symbol: Q86XV3_HUMAN

Name: N/A

UniProtKB Accession Codes:

Q86XV3

Database IDs:

Citations:

PubMed ID: 15489334

Title: The status, quality, and expansion of the NIH full-length cDNA project: the Mammalian Gene Collection (MGC).

PubMed ID: 15489334

DOI: 10.1101/gr.2596504

Sequence Information:

Length: 481
Mass: 53313
Checksum: 885422755C7A7621
Sequence:

VWVSRSACLM TTQLICKLLR SREAAAAVDV RTWPLILDTD DLPKKRPAQI CKPCNPDTLA 
YLDFSVSTTG MLAGVKMSHA ATSAFCRSIK LQCELYPSRE VAICLDPYCG LGFVLWCLCS 
VYSGHQSILI PPSELETNPA LWLLAVSQYK VRDTFCSYSV MELCTKGLGS QTESLKARGL 
DLSRVRTCVV VAEERPRIAL TQSFSKLFKD LGLHPRAVST SFGCRVNLAI CLQGTSGPDP 
TTVYVDMRAL RHDRVRLVER GSPHSLPLME SGKILPGVRI IIANPEIKGP LGDSHLGEIW 
VHSAHNASGY FTIYGDESLQ SDHFNSRLSF GDTQTIWART GYLGFLRRTE LTDANGERHD 
ALYVVGALDE AMELRGMRYH PIDIETSVIR AHKSVTECAV FTWTNLLVVV VELDGSEQEA 
LDLVPLVTNV VLEEHYLIVG VVVVVDIGVI PINSRGEKQR MHLRDGFLAD QLDPIYVAYN 
M

Genular Protein ID: 3588947339

Symbol: A0A0U1RQW6_HUMAN

Name: N/A

UniProtKB Accession Codes:

A0A0U1RQW6

Database IDs:

Citations:

PubMed ID: 11237011

Title: Initial sequencing and analysis of the human genome.

PubMed ID: 11237011

DOI: 10.1038/35057062

PubMed ID: 15164054

Title: The DNA sequence and comparative analysis of human chromosome 10.

PubMed ID: 15164054

DOI: 10.1038/nature02462

PubMed ID: 15496913

Title: Finishing the euchromatic sequence of the human genome.

PubMed ID: 15496913

DOI: 10.1038/nature03001

PubMed ID: 24275569

Title: An enzyme assisted RP-RPLC approach for in-depth analysis of human liver phosphoproteome.

PubMed ID: 24275569

DOI: 10.1016/j.jprot.2013.11.014

Sequence Information:

Length: 1622
Mass: 178087
Checksum: B84949970DDAFBFF
Sequence:

MADRSLEGMA LPLEVRARLA ELELELSEGD ITQKGYEKKR SKLIGAYLPQ PPTANGAAVV 
RCRLQHSEGA PRRTFRSAHI GVCDVREAAA RERVASTAGN RPLFYFRFGV DQALPQERRA 
PVTPSSASRY HRRRSSGSRD ERYRSDVHTE AVQAALAKHK ERKMAVPMPS KRRSLVVQTS 
MDAYTPPDTS SGSEDEGSVQ GDSQGTPTSS QGSINMEHWI SQAIHGSTTS TTSSSSTQSG 
GSGAAHRLAD VMAQTHIENH SAPPDVTTYT SEHSIQVERP QGSTGSRTAP KYGNAELMET 
GDGVPVSSRV SAKIQQLVNT LKRPKRPPLR EFFVDDFEEL LEVQQPDPNQ PKPEGAQMLA 
MRGEQLGVVT NWPPSLEAAL QRWGTISPKA PCLTTMDTNG KPLYILTYGK LWTRSMKVAY 
SILHKLGTKQ EPMVRPGDRV ALVFPNNDPA AFMAAFYGCL LAEVVPVPIE VPLTRKDAGS 
QQIGFLLGSC GVTVALTSDA CHKGLPKSPT GEIPQFKGWP KLLWFVTESK HLSKPPRDWF 
PHIKDANNDT AYIEYKTCKD GSVLGVTVTR TALLTHCQAL TQACGYTEAE TIVNVLDFKK 
DVGLWHGILT SVMNMMHVIS IPYSLMKVNP LSWIQKVCQY KAKVACVKSR DMHWALVAHR 
DQRDINLSSL RMLIVADGAN PWSISSCDAF LNVFQSKGLR QEVICPCASS PEALTVAIRR 
PTDDSNQPPG RGVLSMHGLT YGVIRVDSEE KLSVLTVQDV GLVMPGAIMC SVKPDGVPQL 
CRTDEIGELC VCAVATGTSY YGLSGMTKNT FEVFPMTSSG APISEYPFIR TGLLGFVGPG 
GLVFVVGKMD GLMVVSGRRH NADDIVATAL AVEPMKFVYR GRIAVFSVTV LHDERIVIVA 
EQRPDSTEED SFQWMSRVLQ AIDSIHQVGV YCLALVPANT LPKTPLGGIH LSETKQLFLE 
GSLHPCNVLM CPHTCVTNLP KPRQKQPEIG PASVMVGNLV SGKRIAQASG RDLGQIEDND 
QARKFLFLSE VLQWRAQTTP DHILYTLLNC RGAIANSLTC VQLHKRAEKI AVMLMERGHL 
QDGDHVALVY PPGIDLIAAF YGCLYAGCVP ITVRPPHPQN IATTLPTVKM IVEVSRSACL 
MTTQLICKLL RSREAAAAVD VRTWPLILDT DDLPKKRPAQ ICKPCNPDTL AYLDFSVSTT 
GMLAGVKMSH AATSAFCRSI KLQCELYPSR EVAICLDPYC GLGFVLWCLC SVYSGHQSIL 
IPPSELETNP ALWLLAVSQY KVRDTFCSYS VMELCTKGLG SQTESLKARG LDLSRVRTCV 
VVAEERPRIA LTQSFSKLFK DLGLHPRAVS TSFGCRVNLA ICLQPHRLWT LAEQGTSGPD 
PTTVYVDMRA LRHDRVRLVE RGSPHSLPLM ESGKILPGVR IIIANPETKG PLGDSHLGEI 
WVHSAHNASG YFTIYGDESL QSDHFNSRLS FGDTQTIWAR TGYLGFLRRT ELTDANGERH 
DALYVVGALD EAMELRGMRY HPIDIETSVI RAHKSVTECA VFTWTNLLVV VVELDGSEQE 
ALDLVPLVTN VVLEEHYLIV GVVVVVDIGV IPINSRGEKQ RMHLRDGFLA DQLDPIYVAY 
NM

Details for: DIP2C

Cell Significance Landscape

Associated with

Significant Cells

Network Configuration

Legend:

Other Information

Prediction of the coding sequences of unidentified human genes. XIII. The complete sequences of 100 new cDNA clones from brain which code for large proteins in vitro. PubMed ID: 10231032

Construction of expression-ready cDNA clones for KIAA genes: manual curation of 330 KIAA cDNA clones. PubMed ID: 12168954

Complete sequencing and characterization of 21,243 full-length human cDNAs. PubMed ID: 14702039

The DNA sequence and comparative analysis of human chromosome 10. PubMed ID: 15164054

The status, quality, and expansion of the NIH full-length cDNA project: the Mammalian Gene Collection (MGC). PubMed ID: 15489334

An enzyme assisted RP-RPLC approach for in-depth analysis of human liver phosphoproteome. PubMed ID: 24275569

The consensus coding sequences of human breast and colorectal cancers. PubMed ID: 16959974

The status, quality, and expansion of the NIH full-length cDNA project: the Mammalian Gene Collection (MGC). PubMed ID: 15489334

Initial sequencing and analysis of the human genome. PubMed ID: 11237011

The DNA sequence and comparative analysis of human chromosome 10. PubMed ID: 15164054

Finishing the euchromatic sequence of the human genome. PubMed ID: 15496913

An enzyme assisted RP-RPLC approach for in-depth analysis of human liver phosphoproteome. PubMed ID: 24275569

PubMed ID: 10231032

PubMed ID: 12168954

PubMed ID: 14702039

PubMed ID: 15164054

PubMed ID: 15489334

PubMed ID: 24275569

PubMed ID: 16959974

PubMed ID: 15489334

PubMed ID: 11237011

PubMed ID: 15164054

PubMed ID: 15496913

PubMed ID: 24275569