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Xuejiang Guo
Nanjing Medical University
158Publications
30H-index
3,286Citations
Publications 162
Newest
#1Jian Zhao (NUAA: Nanjing University of Aeronautics and Astronautics)
#2Yan Li (Nanjing Medical University)H-Index: 1
Last.Xiaofeng Song (NUAA: Nanjing University of Aeronautics and Astronautics)H-Index: 11
view all 8 authors...
Internal Ribosome Entry Sites (IRESs) are functional RNA elements that can directly recruit ribosomes to an internal position of the mRNA in a cap-independent manner to initiate translation. Recently, IRES elements have attracted much attention for their critical roles in various processes including translation initiation of a new type of RNA, circular RNA, with no 59 cap to support classical cap-dependent translation. Thus, an integrative data resource of IRES elements with experimental evidenc...
Source
#1Jing Wu (NUAA: Nanjing University of Aeronautics and Astronautics)H-Index: 3
#2Yan Li (Nanjing Medical University)H-Index: 1
Last.Kai Wang (Children's Hospital of Philadelphia)
view all 13 authors...
Abstract Circular RNAs (circRNAs), covalently closed continuous RNA loops, are generated from cognate linear RNAs through back splicing events, and alternative splicing events may generate different circRNA isoforms at the same locus. However, the challenges of reconstruction and quantification of alternatively spliced full-length circRNAs remain unresolved. On the basis of the internal structural characteristics of circRNAs, we developed CircAST, a tool to assemble alternatively spliced circRNA...
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#1Rong Hua (Nanjing Medical University)H-Index: 2
#2Huafang Wei (CAS: Chinese Academy of Sciences)H-Index: 1
Last.Mingxi Liu (Nanjing Medical University)H-Index: 11
view all 11 authors...
1 CitationsSource
#1Yueshuai Guo (Nanjing Medical University)H-Index: 12
#2Jiayin Jiang (Nanjing Medical University)H-Index: 1
Last.Xuejiang Guo (Nanjing Medical University)H-Index: 30
view all 17 authors...
Source
#1Yueshuai Guo (Nanjing Medical University)H-Index: 12
#2Wen Jiang (Nanjing Medical University)
Last.Daozhen Chen (Nanjing Medical University)H-Index: 13
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Abstract Asthenozoospermia, in which sperm motility is affected, is one of the primary causes of male infertility. However, the exact mechanism responsible for the defective motility remains unknown. It is important to identify the precise proteins or pathways involved in sperm motility. The present study analyzed five asthenozoospermic sperm samples and five healthy controls using TMT-based quantitative method and identified 152 differentially expressed proteins, with 84 upregulated and 68 down...
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#1Jing Hu (SJTU: Shanghai Jiao Tong University)H-Index: 4
#2Shuang Li (SJTU: Shanghai Jiao Tong University)H-Index: 2
Last.Ying Jin (CAS: Chinese Academy of Sciences)H-Index: 30
view all 15 authors...
Source
#1Yan Li (Nanjing Medical University)H-Index: 1
#2Yiwei Cheng (Nanjing Medical University)H-Index: 3
Last.Xuejiang Guo (Nanjing Medical University)H-Index: 30
view all 13 authors...
Source
#1Ya Wang (Nanjing Medical University)H-Index: 1
#2Rui Xu (Nanjing Medical University)H-Index: 3
Last.Jiahao Sha (Nanjing Medical University)H-Index: 34
view all 14 authors...
Abstract Flagellum in sperm is composed of over 200 different proteins and is essential for sperm motility. In particular, defects in the assembly of the radial spoke in the flagellum result in male infertility due to loss of sperm motility. However, mechanisms regulating radial spoke assembly remain unclear in metazoans. Here, we identified a novel Drosophila protein radial spoke binding protein 15 (RSBP15) which plays an important role in regulating radial spoke assembly. Loss of RSBP15 result...
1 CitationsSource
#1Hongbin LiuH-Index: 7
#2Tahir Muhammad (SDU: Shandong University)H-Index: 1
Last.Zi-Jiang ChenH-Index: 39
view all 19 authors...
Source
#1Shun BaiH-Index: 3
#2Kaiqiang FuH-Index: 2
Last.Lan YeH-Index: 2
view all 23 authors...
1 CitationsSource
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