Qiuying Li
Liaoning Normal University
5 Papers
47 Citations
Qiuying Li is an academic researcher from Liaoning Normal University. The author has contributed to research in topics: Complementary DNA & Apostichopus japonicus. The author has an hindex of 4, co-authored 5 publications.
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Papers
Molecular cloning, characterization and expression analysis of a C-type lectin (AJCTL) from the sea cucumber Apostichopus japonicus.
Lulu Han,Zhe Yuan,Hans-Uwe Dahms,Qiuying Li,Qiaozhi Zhang,Rong-Jie Wu,Jian Tan,Xiangyang Zou,Lin Hou +8 more
TL;DR: The expression of AJCTL in sea cucumber indicated that CTL is related to an innate immune response and it might function as a Ca(2+)-dependent monosaccharide binding lectin specifically and recognizing mannose-type ligands.
23
Cloning and characterization of a trypsin-like serine protease gene, a novel regeneration-related gene from Apostichopus japonicus.
Zhe Yuan,Hans-Uwe Dahms,Lulu Han,Qiuying Li,Qiaozhi Zhang,Rong-Jie Wu,Jian Tan,Xiangyang Zou,Lin Hou +8 more
TL;DR: TLS gene expression in the body wall within 1h and subsequent down-regulation of TLS similar to intestine and respiratory trees shows that TLS is important in the regeneration process of A. japonicus.
15
Molecular Characterization and Expression of As-nurp1 Gene From Artemia sinica During Development and in Response to Salinity and Temperature Stress
TL;DR: Findings suggest that As-nurp1 is stress-related and may act as a protective factor in embryonic development and is newly upregulated from the larval nauplius stage.
8
Isolation and purification of the peptides from Apostichopus japonicus and evaluation of its antibacterial and antitumor activities
Jian Tan,Zonghong Liu,Mark Perfetto,Lulu Han,Qiuying Li,Qiaozhi Zhang,Rong-Jie Wu,Zhe Yuan,Xiangyang Zou,Lin Hou +9 more
- 01 Jan 2012
TL;DR: The proliferation effect of antimicrobial peptides on A549 cell is demonstrated and the composition of A3 is complex with four components shown, which inhibits the bacteria and the cancer cells.
4
Expression patterns of As-ClC gene of Artemia sinica in early development and under salinity stress
TL;DR: The complete cDNA sequence of As-CIC was cloned from A. sinica for the first time using RACE technology and indicated that As-ClC functions as salinity-stress-related gene, probably participated in cell volume regulation and osmotic regulation during the early embryonic development of A. Sinica.