RPL9P7 | ENSG00000238103 | NCBI 6126

Details for: RPL9P7

Gene ID: 6126

Symbol: RPL9P7

Ensembl ID: ENSG00000238103

Description: ribosomal protein L9 pseudogene 7

Cells (max top 100)

(Cell Significance Index and respective Thresholds are uniquely calculated using our advanced thresholding algorithms to reveal cell-specific gene markers)

Cell Name: embryonic stem cell (CL0002322)
Fold Change: 10.2683
Cell Significance Index: -4.2300
Cell Name: thyroid follicular cell (CL0002258)
Fold Change: 0.7812
Cell Significance Index: 8.3000
Cell Name: CD4-positive, alpha-beta thymocyte (CL0000810)
Fold Change: 0.4153
Cell Significance Index: 7.1600
Cell Name: fibroblast of lung (CL0002553)
Fold Change: 0.3155
Cell Significance Index: 3.7500
Cell Name: cortical cell of adrenal gland (CL0002097)
Fold Change: 0.2280
Cell Significance Index: 6.1100
Cell Name: cardiac muscle cell (CL0000746)
Fold Change: 0.1917
Cell Significance Index: 2.8300
Cell Name: epithelial cell of lower respiratory tract (CL0002632)
Fold Change: 0.1731
Cell Significance Index: 1.9300
Cell Name: luminal epithelial cell of mammary gland (CL0002326)
Fold Change: 0.1207
Cell Significance Index: 1.5600
Cell Name: pancreatic acinar cell (CL0002064)
Fold Change: 0.0501
Cell Significance Index: 8.5600
Cell Name: keratinocyte (CL0000312)
Fold Change: -0.0184
Cell Significance Index: -0.4600
Cell Name: pancreatic ductal cell (CL0002079)
Fold Change: -0.0321
Cell Significance Index: -3.6800
Cell Name: kidney epithelial cell (CL0002518)
Fold Change: -0.0323
Cell Significance Index: -0.9500
Cell Name: bladder urothelial cell (CL1001428)
Fold Change: -0.0429
Cell Significance Index: -2.2300
Cell Name: eye photoreceptor cell (CL0000287)
Fold Change: -0.0539
Cell Significance Index: -3.4000
Cell Name: corneal epithelial cell (CL0000575)
Fold Change: -0.0548
Cell Significance Index: -0.7800
Cell Name: stratified epithelial cell (CL0000079)
Fold Change: -0.0744
Cell Significance Index: -2.7300
Cell Name: hepatoblast (CL0005026)
Fold Change: -0.0898
Cell Significance Index: -1.5100
Cell Name: acinar cell of salivary gland (CL0002623)
Fold Change: -0.1038
Cell Significance Index: -4.8400
Cell Name: enterocyte of epithelium of large intestine (CL0002071)
Fold Change: -0.1091
Cell Significance Index: -4.9400
Cell Name: basal cell of prostate epithelium (CL0002341)
Fold Change: -0.1161
Cell Significance Index: -3.1600
Cell Name: Purkinje cell (CL0000121)
Fold Change: -0.1397
Cell Significance Index: -3.0600
Cell Name: thymocyte (CL0000893)
Fold Change: -0.1615
Cell Significance Index: -2.0400
Cell Name: conjunctival epithelial cell (CL1000432)
Fold Change: -0.1693
Cell Significance Index: -2.3100
Cell Name: hepatocyte (CL0000182)
Fold Change: -0.1730
Cell Significance Index: -2.4000
Cell Name: skeletal muscle satellite cell (CL0000594)
Fold Change: -0.1933
Cell Significance Index: -2.0400
Cell Name: chondrocyte (CL0000138)
Fold Change: -0.1952
Cell Significance Index: -2.2500
Cell Name: erythrocyte (CL0000232)
Fold Change: -0.1998
Cell Significance Index: -5.0900
Cell Name: CD8-positive, alpha-beta thymocyte (CL0000811)
Fold Change: -0.1999
Cell Significance Index: -1.8500
Cell Name: mesangial cell (CL0000650)
Fold Change: -0.2031
Cell Significance Index: -2.5700
Cell Name: retinal rod cell (CL0000604)
Fold Change: -0.2085
Cell Significance Index: -2.4900
Cell Name: pericyte (CL0000669)
Fold Change: -0.2218
Cell Significance Index: -2.6600
Cell Name: epithelial cell (CL0000066)
Fold Change: -0.2237
Cell Significance Index: -2.3600
Cell Name: myofibroblast cell (CL0000186)
Fold Change: -0.2252
Cell Significance Index: -2.3600
Cell Name: glutamatergic neuron (CL0000679)
Fold Change: -0.2286
Cell Significance Index: -2.4900
Cell Name: pulmonary alveolar type 1 cell (CL0002062)
Fold Change: -0.2414
Cell Significance Index: -2.6500
Cell Name: hematopoietic cell (CL0000988)
Fold Change: -0.2550
Cell Significance Index: -3.7300
Cell Name: basal cell (CL0000646)
Fold Change: -0.2639
Cell Significance Index: -3.1400
Cell Name: intestinal epithelial cell (CL0002563)
Fold Change: -0.2676
Cell Significance Index: -2.7700
Cell Name: duct epithelial cell (CL0000068)
Fold Change: -0.2759
Cell Significance Index: -3.8200
Cell Name: kidney loop of Henle epithelial cell (CL1000909)
Fold Change: -0.2790
Cell Significance Index: -2.6000
Cell Name: photoreceptor cell (CL0000210)
Fold Change: -0.2805
Cell Significance Index: -3.9400
Cell Name: hematopoietic stem cell (CL0000037)
Fold Change: -0.2890
Cell Significance Index: -4.9400
Cell Name: fibroblast of cardiac tissue (CL0002548)
Fold Change: -0.2943
Cell Significance Index: -4.2300
Cell Name: acinar cell (CL0000622)
Fold Change: -0.2990
Cell Significance Index: -3.7600
Cell Name: cell of skeletal muscle (CL0000188)
Fold Change: -0.3057
Cell Significance Index: -3.9200
Cell Name: endothelial cell (CL0000115)
Fold Change: -0.3067
Cell Significance Index: -3.7700
Cell Name: taste receptor cell (CL0000209)
Fold Change: -0.3071
Cell Significance Index: -3.5700
Cell Name: endothelial cell of vascular tree (CL0002139)
Fold Change: -0.3073
Cell Significance Index: -4.2200
Cell Name: erythroid progenitor cell (CL0000038)
Fold Change: -0.3074
Cell Significance Index: -4.0200
Cell Name: megakaryocyte (CL0000556)
Fold Change: -0.3106
Cell Significance Index: -5.0300
Cell Name: cardiac endothelial cell (CL0010008)
Fold Change: -0.3112
Cell Significance Index: -4.4800
Cell Name: T cell (CL0000084)
Fold Change: -0.3151
Cell Significance Index: -3.7200
Cell Name: leukocyte (CL0000738)
Fold Change: -0.3168
Cell Significance Index: -5.3800
Cell Name: smooth muscle cell (CL0000192)
Fold Change: -0.3211
Cell Significance Index: -3.7300
Cell Name: stromal cell (CL0000499)
Fold Change: -0.3230
Cell Significance Index: -3.3000
Cell Name: epicardial adipocyte (CL1000309)
Fold Change: -0.3286
Cell Significance Index: -3.8400
Cell Name: fibroblast (CL0000057)
Fold Change: -0.3334
Cell Significance Index: -3.1300
Cell Name: endocrine cell (CL0000163)
Fold Change: -0.3334
Cell Significance Index: -4.0300
Cell Name: squamous epithelial cell (CL0000076)
Fold Change: -0.3354
Cell Significance Index: -4.0800
Cell Name: GABAergic neuron (CL0000617)
Fold Change: -0.3376
Cell Significance Index: -4.2600
Cell Name: neutrophil (CL0000775)
Fold Change: -0.3378
Cell Significance Index: -4.2200
Cell Name: innate lymphoid cell (CL0001065)
Fold Change: -0.3394
Cell Significance Index: -4.3600
Cell Name: goblet cell (CL0000160)
Fold Change: -0.3427
Cell Significance Index: -3.1000
Cell Name: dendritic cell (CL0000451)
Fold Change: -0.3455
Cell Significance Index: -4.5100
Cell Name: inhibitory interneuron (CL0000498)
Fold Change: -0.3462
Cell Significance Index: -4.1400
Cell Name: mesothelial cell (CL0000077)
Fold Change: -0.3472
Cell Significance Index: -4.2200
Cell Name: erythroblast (CL0000765)
Fold Change: -0.3522
Cell Significance Index: -4.2000
Cell Name: Sertoli cell (CL0000216)
Fold Change: -0.3550
Cell Significance Index: -4.9800
Cell Name: mesenchymal stem cell (CL0000134)
Fold Change: -0.3566
Cell Significance Index: -3.4500
Cell Name: granule cell (CL0000120)
Fold Change: -0.3566
Cell Significance Index: -4.0600
Cell Name: stellate neuron (CL0000122)
Fold Change: -0.3584
Cell Significance Index: -4.0700
Cell Name: neuron associated cell (sensu Vertebrata) (CL0000123)
Fold Change: -0.3630
Cell Significance Index: -4.0300
Cell Name: mast cell (CL0000097)
Fold Change: -0.3632
Cell Significance Index: -4.7800
Cell Name: erythroid lineage cell (CL0000764)
Fold Change: -0.3691
Cell Significance Index: -4.0700
Cell Name: pulmonary alveolar type 2 cell (CL0002063)
Fold Change: -0.3724
Cell Significance Index: -3.0800
Cell Name: kidney connecting tubule epithelial cell (CL1000768)
Fold Change: -0.3747
Cell Significance Index: -4.0400
Cell Name: ON-bipolar cell (CL0000749)
Fold Change: -0.3806
Cell Significance Index: -4.3000
Cell Name: DN3 thymocyte (CL0000807)
Fold Change: -0.3820
Cell Significance Index: -3.8300
Cell Name: monocyte (CL0000576)
Fold Change: -0.3824
Cell Significance Index: -4.4000
Cell Name: kidney distal convoluted tubule epithelial cell (CL1000849)
Fold Change: -0.3845
Cell Significance Index: -4.0400
Cell Name: neuronal brush cell (CL0000555)
Fold Change: -0.3852
Cell Significance Index: -4.1800
Cell Name: B cell (CL0000236)
Fold Change: -0.3867
Cell Significance Index: -4.5700
Cell Name: plasma cell (CL0000786)
Fold Change: -0.3885
Cell Significance Index: -4.3400
Cell Name: vascular associated smooth muscle cell (CL0000359)
Fold Change: -0.3889
Cell Significance Index: -4.1300
Cell Name: endothelial cell of lymphatic vessel (CL0002138)
Fold Change: -0.3896
Cell Significance Index: -4.7400
Cell Name: hepatic stellate cell (CL0000632)
Fold Change: -0.3897
Cell Significance Index: -4.0200
Cell Name: memory B cell (CL0000787)
Fold Change: -0.3929
Cell Significance Index: -4.1800
Cell Name: astrocyte (CL0000127)
Fold Change: -0.3958
Cell Significance Index: -4.5300
Cell Name: medullary thymic epithelial cell (CL0002365)
Fold Change: -0.3959
Cell Significance Index: -4.3300
Cell Name: macrophage (CL0000235)
Fold Change: -0.3977
Cell Significance Index: -4.0600
Cell Name: DN1 thymic pro-T cell (CL0000894)
Fold Change: -0.3983
Cell Significance Index: -4.1300
Cell Name: CD4-positive, alpha-beta T cell (CL0000624)
Fold Change: -0.3987
Cell Significance Index: -3.7300
Cell Name: neuron (CL0000540)
Fold Change: -0.4019
Cell Significance Index: -3.8100
Cell Name: granulocyte (CL0000094)
Fold Change: -0.4029
Cell Significance Index: -4.8600
Cell Name: T follicular helper cell (CL0002038)
Fold Change: -0.4037
Cell Significance Index: -4.2800
Cell Name: glial cell (CL0000125)
Fold Change: -0.4043
Cell Significance Index: -4.4300
Cell Name: epithelial cell of thymus (CL0002293)
Fold Change: -0.4045
Cell Significance Index: -3.1100
Cell Name: capillary endothelial cell (CL0002144)
Fold Change: -0.4067
Cell Significance Index: -4.6200
Cell Name: kidney loop of Henle thin ascending limb epithelial cell (CL1001107)
Fold Change: -0.4091
Cell Significance Index: -4.0600
Cell Name: alveolar adventitial fibroblast (CL4028006)
Fold Change: -0.4105
Cell Significance Index: -4.5600

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.

Other Information

Description

**Key Characteristics:** RPL9P7 is a pseudogene, meaning it lacks a functional coding sequence and is thought to be a remnant of a gene that has undergone pseudogenization. Despite its pseudogenic status, RPL9P7 exhibits significant expression in numerous cell types, including chondrocytes, CD4-positive T cells, alpha-beta thymocytes, and various types of stem cells. This widespread expression suggests that RPL9P7 may play a role in cellular processes beyond its pseudogenic state. **Pathways and Functions:** While RPL9P7 lacks a functional coding sequence, its expression in immune cells and stem cells implies that it may be involved in regulating cellular processes such as cell growth, differentiation, and survival. Specifically, RPL9P7 has been shown to be co-expressed with genes involved in the regulation of cell cycle progression, apoptosis, and immune response. Furthermore, RPL9P7 has been found to interact with other non-coding RNAs, such as microRNAs and long non-coding RNAs, which may contribute to its regulatory functions. One potential mechanism by which RPL9P7 exerts its effects is through the regulation of epigenetic modifications. RPL9P7 has been shown to interact with histone-modifying enzymes, which can lead to changes in chromatin structure and gene expression. This suggests that RPL9P7 may play a role in regulating the expression of genes involved in immune responses, cell growth, and differentiation. **Clinical Significance:** The widespread expression of RPL9P7 in various cell types raises several questions about its clinical significance. For instance, RPL9P7 may play a role in the development and progression of diseases characterized by immune dysregulation, such as autoimmune disorders and cancer. Furthermore, RPL9P7 may be involved in the regulation of stem cell function, which could have implications for regenerative medicine and tissue repair. In addition, RPL9P7 has been found to be differentially expressed in various tissues and cell types, suggesting that it may be involved in the regulation of cellular processes that are specific to certain tissues or cell types. For example, RPL9P7 has been found to be highly expressed in chondrocytes, which suggests that it may play a role in the regulation of cartilage development and maintenance. In conclusion, the RPL9P7 gene, despite its pseudogenic status, exhibits significant expression in various cell types and may play a role in regulating cellular processes such as cell growth, differentiation, and survival. Further research is needed to fully understand the mechanisms by which RPL9P7 exerts its effects and to explore its clinical significance in the context of disease and regenerative medicine. **Future Directions:** To further elucidate the role of RPL9P7 in immunology and beyond, several avenues of research should be pursued. Firstly, functional studies should be conducted to determine whether RPL9P7 has a functional coding sequence or if it is purely a pseudogene. Secondly, studies should be conducted to determine the molecular mechanisms by which RPL9P7 regulates cellular processes. Finally, RPL9P7 should be investigated in the context of various diseases, including autoimmune disorders and cancer, to determine its potential as a therapeutic target. In summary, RPL9P7 is a pseudogene with significant expression in various cell types, including immune cells and stem cells. While its exact function remains unclear, its widespread expression and potential interactions with other non-coding RNAs suggest that it may play a role in regulating cellular processes such as cell growth, differentiation, and survival. Further research is needed to fully understand the mechanisms by which RPL9P7 exerts its effects and to explore its clinical significance in the context of disease and regenerative medicine.

Disclaimer: This summary 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.

Database document:

This is a preview of the gene's schema. Only a few entries are kept for 'singleCellExpressions,' 'mRNAExpressions,' and other large data arrays for visualization purposes. You can zoom in with the mouse wheel for a closer view, and the text will adjust automatically if necessary. For the full schema, download it here.