Junjun Yan
Chinese Academy of Sciences
6 Papers
2 Citations
Junjun Yan is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Cold acclimation & Gene. The author has an hindex of 4, co-authored 6 publications.
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Papers
Transcriptomic characterization of cold acclimation in larval zebrafish
TL;DR: These findings indicate that zebrafish larvae possess the ability to build cold-tolerance under mild low temperature and transcriptional and post-transcriptional regulations are extensively involved in this acclimation process.
Transcriptomic profiling revealed key signaling pathways for cold tolerance and acclimation of two carp species
TL;DR: In this paper, the authors compared transcriptomic profiles of two carp species to identify key factors and pathways for cold tolerance and acclimation, and found that Songpu mirror carp exhibited stronger abilities of cold tolerance than Barbless carp.
Dynamic Phosphoproteome Profiling of Zebrafish Embryonic Fibroblasts during Cold Acclimation.
TL;DR: The formation of cold acclimation in zebrafish embryonic fibroblasts (ZF4) is monitored and the phosphorylation events during the process are investigated through a large‐scale quantitative phosphoproteomic approach, revealing that mitogen‐activated protein kinase (MAPK) among the kinase groups is predominantly responsible for phospholylation of these phosphosites.
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Molecular characterization of the giant freshwater prawn ( Macrobrachium rosenbergii ) beta-actin gene promoter.
TL;DR: Two alternative promoters were identified for the Mractb1 gene, which direct the generation of two transcripts with different 5′ untranslated regions and the Mractionb1 promoter demonstrated comparative activity to the carp.
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Efficient and risk-reduced genome editing using double nicks enhanced by bacterial recombination factors in multiple species.
He Xiaozhen,Wenfeng Chen,Zhen Liu,Yu Guirong,Youbang Chen,Yijun Cai,Ling Sun,Xu Wanli,Lili Zhong,Caixi Gao,Jishen Chen,Minjie Zhang,Shengxi Yang,Yizhou Yao,Zhiping Zhang,Ma Fujun,Chen-Chen Zhang,Hui-Ping Lu,Bin Yu,Tian-Lin Cheng,Juhui Qiu,Qing Sheng,Hai-Meng Zhou,Hai-Meng Zhou,Zhi-Rong Lv,Junjun Yan,Yongjian Zhou,Zilong Qiu,Zongbin Cui,Xi Zhang,Anming Meng,Qiang Sun,Yufeng Yang +32 more
TL;DR: The enhanced reduced-risk genome editing strategy, NEO, which used either site-specific trans or cis double-nicking facilitated by four bacterial recombination factors and effectively suppressed both on-target and off-target indels was effectively suppressed.