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Gene Information
Gene symbol: KIF17
Gene name: kinesin family member 17
HGNC ID: 19167
Synonyms: KIAA1405, KIF3X, KIF17B, OSM-3, KLP-2
Related Genes
| # | Gene Symbol | Number of hits |
| 1 | KIFC1 | 1 hits |
Related Sentences
| # | PMID | Sentence |
| 1 | 19679349 | The presence of kinesin superfamily motor proteins KIFC1 and KIF17 in normal and pathological human placenta. |
| 2 | 19679349 | Therefore, in this study we aimed to investigate the presence and cellular localization of KIFC1 and KIF17 in normal and pathological human placentas. |
| 3 | 19679349 | Here, we demonstrate the presence of KIFC1 and KIF17 in human placenta for the first time. |
| 4 | 19679349 | The intense expression of KIFC1 in syncytiotrophoblast and KIF17 in vascular endothelium suggests that both the proteins might be important in a cargo-transport system. |
| 5 | 19679349 | An increased expression pattern of both KIFC1 and KIF17 in PE and diabetes might suggest that these proteins may be involved in complex trophoblast functions and placental pathologies. |
| 6 | 19679349 | The presence of kinesin superfamily motor proteins KIFC1 and KIF17 in normal and pathological human placenta. |
| 7 | 19679349 | Therefore, in this study we aimed to investigate the presence and cellular localization of KIFC1 and KIF17 in normal and pathological human placentas. |
| 8 | 19679349 | Here, we demonstrate the presence of KIFC1 and KIF17 in human placenta for the first time. |
| 9 | 19679349 | The intense expression of KIFC1 in syncytiotrophoblast and KIF17 in vascular endothelium suggests that both the proteins might be important in a cargo-transport system. |
| 10 | 19679349 | An increased expression pattern of both KIFC1 and KIF17 in PE and diabetes might suggest that these proteins may be involved in complex trophoblast functions and placental pathologies. |
| 11 | 19679349 | The presence of kinesin superfamily motor proteins KIFC1 and KIF17 in normal and pathological human placenta. |
| 12 | 19679349 | Therefore, in this study we aimed to investigate the presence and cellular localization of KIFC1 and KIF17 in normal and pathological human placentas. |
| 13 | 19679349 | Here, we demonstrate the presence of KIFC1 and KIF17 in human placenta for the first time. |
| 14 | 19679349 | The intense expression of KIFC1 in syncytiotrophoblast and KIF17 in vascular endothelium suggests that both the proteins might be important in a cargo-transport system. |
| 15 | 19679349 | An increased expression pattern of both KIFC1 and KIF17 in PE and diabetes might suggest that these proteins may be involved in complex trophoblast functions and placental pathologies. |
| 16 | 19679349 | The presence of kinesin superfamily motor proteins KIFC1 and KIF17 in normal and pathological human placenta. |
| 17 | 19679349 | Therefore, in this study we aimed to investigate the presence and cellular localization of KIFC1 and KIF17 in normal and pathological human placentas. |
| 18 | 19679349 | Here, we demonstrate the presence of KIFC1 and KIF17 in human placenta for the first time. |
| 19 | 19679349 | The intense expression of KIFC1 in syncytiotrophoblast and KIF17 in vascular endothelium suggests that both the proteins might be important in a cargo-transport system. |
| 20 | 19679349 | An increased expression pattern of both KIFC1 and KIF17 in PE and diabetes might suggest that these proteins may be involved in complex trophoblast functions and placental pathologies. |
| 21 | 19679349 | The presence of kinesin superfamily motor proteins KIFC1 and KIF17 in normal and pathological human placenta. |
| 22 | 19679349 | Therefore, in this study we aimed to investigate the presence and cellular localization of KIFC1 and KIF17 in normal and pathological human placentas. |
| 23 | 19679349 | Here, we demonstrate the presence of KIFC1 and KIF17 in human placenta for the first time. |
| 24 | 19679349 | The intense expression of KIFC1 in syncytiotrophoblast and KIF17 in vascular endothelium suggests that both the proteins might be important in a cargo-transport system. |
| 25 | 19679349 | An increased expression pattern of both KIFC1 and KIF17 in PE and diabetes might suggest that these proteins may be involved in complex trophoblast functions and placental pathologies. |