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Gene Information
Gene symbol: MIRN204
Gene name: microRNA 204
HGNC ID: 31582
Related Genes
| # | Gene Symbol | Number of hits |
| 1 | INS | 1 hits |
| 2 | KLRG1 | 1 hits |
| 3 | MARCH8 | 1 hits |
| 4 | MIRN10A | 1 hits |
| 5 | MIRN10B | 1 hits |
| 6 | MIRN182 | 1 hits |
| 7 | MIRN183 | 1 hits |
| 8 | MIRN211 | 1 hits |
| 9 | MIRN219-1 | 1 hits |
| 10 | MIRN96 | 1 hits |
| 11 | STAT3 | 1 hits |
| 12 | TXNIP | 1 hits |
Related Sentences
| # | PMID | Sentence |
| 1 | 22156553 | Levels of miR-182, miR-96, miR-183, miR-211, miR-204, and miR-124 were significantly increased during the progress of DR, whereas miR-10b, miR-10a, miR-219-2-3p, miR-144, miR-338, and miR-199a-3p were significantly decreased. |
| 2 | 23975026 | Thioredoxin-interacting protein regulates insulin transcription through microRNA-204. |
| 3 | 23975026 | Here we show that TXNIP and diabetes induce beta-cell expression of a specific microRNA, miR-204, which in turn blocks insulin production by directly targeting and downregulating MAFA, a known insulin transcription factor. |
| 4 | 23975026 | In particular, we first discovered the regulation of miR-204 by TXNIP by microarray analysis, followed by validation studies in INS-1 beta cells, islets of Txnip-deficient mice, diabetic mouse models and primary human islets. |
| 5 | 23975026 | We then further found that TXNIP induces miR-204 by inhibiting the activity of signal transducer and activator of transcription 3 (STAT3), a transcription factor that is involved in miR-204 regulation. |
| 6 | 23975026 | We also identified MAFA as a target that is downregulated by miR-204. |
| 7 | 23975026 | Taken together, our results demonstrate that TXNIP controls microRNA expression and insulin production and that miR-204 is involved in beta-cell function. |
| 8 | 23975026 | The newly identified TXNIP-miR-204-MAFA-insulin pathway may contribute to diabetes progression and provides new insight into TXNIP function and microRNA biology in health and disease. |
| 9 | 23975026 | Thioredoxin-interacting protein regulates insulin transcription through microRNA-204. |
| 10 | 23975026 | Here we show that TXNIP and diabetes induce beta-cell expression of a specific microRNA, miR-204, which in turn blocks insulin production by directly targeting and downregulating MAFA, a known insulin transcription factor. |
| 11 | 23975026 | In particular, we first discovered the regulation of miR-204 by TXNIP by microarray analysis, followed by validation studies in INS-1 beta cells, islets of Txnip-deficient mice, diabetic mouse models and primary human islets. |
| 12 | 23975026 | We then further found that TXNIP induces miR-204 by inhibiting the activity of signal transducer and activator of transcription 3 (STAT3), a transcription factor that is involved in miR-204 regulation. |
| 13 | 23975026 | We also identified MAFA as a target that is downregulated by miR-204. |
| 14 | 23975026 | Taken together, our results demonstrate that TXNIP controls microRNA expression and insulin production and that miR-204 is involved in beta-cell function. |
| 15 | 23975026 | The newly identified TXNIP-miR-204-MAFA-insulin pathway may contribute to diabetes progression and provides new insight into TXNIP function and microRNA biology in health and disease. |
| 16 | 23975026 | Thioredoxin-interacting protein regulates insulin transcription through microRNA-204. |
| 17 | 23975026 | Here we show that TXNIP and diabetes induce beta-cell expression of a specific microRNA, miR-204, which in turn blocks insulin production by directly targeting and downregulating MAFA, a known insulin transcription factor. |
| 18 | 23975026 | In particular, we first discovered the regulation of miR-204 by TXNIP by microarray analysis, followed by validation studies in INS-1 beta cells, islets of Txnip-deficient mice, diabetic mouse models and primary human islets. |
| 19 | 23975026 | We then further found that TXNIP induces miR-204 by inhibiting the activity of signal transducer and activator of transcription 3 (STAT3), a transcription factor that is involved in miR-204 regulation. |
| 20 | 23975026 | We also identified MAFA as a target that is downregulated by miR-204. |
| 21 | 23975026 | Taken together, our results demonstrate that TXNIP controls microRNA expression and insulin production and that miR-204 is involved in beta-cell function. |
| 22 | 23975026 | The newly identified TXNIP-miR-204-MAFA-insulin pathway may contribute to diabetes progression and provides new insight into TXNIP function and microRNA biology in health and disease. |
| 23 | 23975026 | Thioredoxin-interacting protein regulates insulin transcription through microRNA-204. |
| 24 | 23975026 | Here we show that TXNIP and diabetes induce beta-cell expression of a specific microRNA, miR-204, which in turn blocks insulin production by directly targeting and downregulating MAFA, a known insulin transcription factor. |
| 25 | 23975026 | In particular, we first discovered the regulation of miR-204 by TXNIP by microarray analysis, followed by validation studies in INS-1 beta cells, islets of Txnip-deficient mice, diabetic mouse models and primary human islets. |
| 26 | 23975026 | We then further found that TXNIP induces miR-204 by inhibiting the activity of signal transducer and activator of transcription 3 (STAT3), a transcription factor that is involved in miR-204 regulation. |
| 27 | 23975026 | We also identified MAFA as a target that is downregulated by miR-204. |
| 28 | 23975026 | Taken together, our results demonstrate that TXNIP controls microRNA expression and insulin production and that miR-204 is involved in beta-cell function. |
| 29 | 23975026 | The newly identified TXNIP-miR-204-MAFA-insulin pathway may contribute to diabetes progression and provides new insight into TXNIP function and microRNA biology in health and disease. |
| 30 | 23975026 | Thioredoxin-interacting protein regulates insulin transcription through microRNA-204. |
| 31 | 23975026 | Here we show that TXNIP and diabetes induce beta-cell expression of a specific microRNA, miR-204, which in turn blocks insulin production by directly targeting and downregulating MAFA, a known insulin transcription factor. |
| 32 | 23975026 | In particular, we first discovered the regulation of miR-204 by TXNIP by microarray analysis, followed by validation studies in INS-1 beta cells, islets of Txnip-deficient mice, diabetic mouse models and primary human islets. |
| 33 | 23975026 | We then further found that TXNIP induces miR-204 by inhibiting the activity of signal transducer and activator of transcription 3 (STAT3), a transcription factor that is involved in miR-204 regulation. |
| 34 | 23975026 | We also identified MAFA as a target that is downregulated by miR-204. |
| 35 | 23975026 | Taken together, our results demonstrate that TXNIP controls microRNA expression and insulin production and that miR-204 is involved in beta-cell function. |
| 36 | 23975026 | The newly identified TXNIP-miR-204-MAFA-insulin pathway may contribute to diabetes progression and provides new insight into TXNIP function and microRNA biology in health and disease. |
| 37 | 23975026 | Thioredoxin-interacting protein regulates insulin transcription through microRNA-204. |
| 38 | 23975026 | Here we show that TXNIP and diabetes induce beta-cell expression of a specific microRNA, miR-204, which in turn blocks insulin production by directly targeting and downregulating MAFA, a known insulin transcription factor. |
| 39 | 23975026 | In particular, we first discovered the regulation of miR-204 by TXNIP by microarray analysis, followed by validation studies in INS-1 beta cells, islets of Txnip-deficient mice, diabetic mouse models and primary human islets. |
| 40 | 23975026 | We then further found that TXNIP induces miR-204 by inhibiting the activity of signal transducer and activator of transcription 3 (STAT3), a transcription factor that is involved in miR-204 regulation. |
| 41 | 23975026 | We also identified MAFA as a target that is downregulated by miR-204. |
| 42 | 23975026 | Taken together, our results demonstrate that TXNIP controls microRNA expression and insulin production and that miR-204 is involved in beta-cell function. |
| 43 | 23975026 | The newly identified TXNIP-miR-204-MAFA-insulin pathway may contribute to diabetes progression and provides new insight into TXNIP function and microRNA biology in health and disease. |