Exogenous Otx2 protects midbrain dopaminergic neurons from MPP+ by interacting with ATP5a1 and promoting ATP synthesis

“…Further analysis showed that MSTRG.56713.8 , MSTRG.51570.1 , and MSTRG.32990.14 were significantly down‐regulated in MII oocytes compared with the GV stage, with ATP5A1 , ATP5B and ATP5EP2 as cy‐target genes, respectively. Reports have showed that the ATP5A1 , ATP5B , and ATP5EP2 , which encode components of mitochondrial ATP synthetase (Wang, Chang, et al, 2021; Xue et al, 2022), can catalyse ATP synthesis, fatty acid β‐oxidation, lipid metabolism. ACADVL , being the target gene of MSTRG.10070.2 , can encode ultra‐long chain‐specific acyl CoA dehydrogenase, and catalyse the first step of mitochondrial fatty acid β‐oxidation (Chen et al, 2020; Li, Zhang, et al, 2021).…”

“…Further analysis showed that .56713.8, MSTRG.51570.1, and MSTRG.32990.14 were significantly down-regulated in MII oocytes compared with the GV stage, with ATP5A1, ATP5B and ATP5EP2 as cy-target genes, respectively. Reports have showed that the ATP5A1, ATP5B, and ATP5EP2, which encode components of mitochondrial ATP synthetase (Wang, Chang, et al, 2021;Xue et al, 2022) CoA and plays a crucial role in fatty acid oxidation and lipid metabolism (Li et al, 2019;. According to cis-target genes in lncRNA transcripts, lncRNAs may directly or indirectly regulate the expression of target genes to affect signalling pathways related to energy metabolism in equine oocyte maturation.…”

Transcriptome analyses reveal transcriptional profiles of horse oocytes before and after in vitro maturation

“…Further analysis showed that MSTRG.56713.8 , MSTRG.51570.1 , and MSTRG.32990.14 were significantly down‐regulated in MII oocytes compared with the GV stage, with ATP5A1 , ATP5B and ATP5EP2 as cy‐target genes, respectively. Reports have showed that the ATP5A1 , ATP5B , and ATP5EP2 , which encode components of mitochondrial ATP synthetase (Wang, Chang, et al, 2021; Xue et al, 2022), can catalyse ATP synthesis, fatty acid β‐oxidation, lipid metabolism. ACADVL , being the target gene of MSTRG.10070.2 , can encode ultra‐long chain‐specific acyl CoA dehydrogenase, and catalyse the first step of mitochondrial fatty acid β‐oxidation (Chen et al, 2020; Li, Zhang, et al, 2021).…”

“…Further analysis showed that .56713.8, MSTRG.51570.1, and MSTRG.32990.14 were significantly down-regulated in MII oocytes compared with the GV stage, with ATP5A1, ATP5B and ATP5EP2 as cy-target genes, respectively. Reports have showed that the ATP5A1, ATP5B, and ATP5EP2, which encode components of mitochondrial ATP synthetase (Wang, Chang, et al, 2021;Xue et al, 2022) CoA and plays a crucial role in fatty acid oxidation and lipid metabolism (Li et al, 2019;. According to cis-target genes in lncRNA transcripts, lncRNAs may directly or indirectly regulate the expression of target genes to affect signalling pathways related to energy metabolism in equine oocyte maturation.…”

Transcriptome analyses reveal transcriptional profiles of horse oocytes before and after in vitro maturation