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Tian Ling
Animal Science
South China Agricultural University
Guangdong
Language: Chinese, English
Silkworm
Developmental Regulation
Pathogen Interaction
Autophagy
Immune Response
Animal Disease
Host Interaction
Treatment Models
Black Soldier Fly
Germplasm Utilization
Areas of Focus
- Mechanisms of developmental regulation and pathogen interaction in silkworms
- Autophagy and immune-based animal disease-host interaction and treatment models
- Basic biology, germplasm utilization, and breeding of resource insects like black soldier fly
Work Experience
- 2008.7-2010.7 Shanghai Institute of Life Sciences, CAS, Postdoctoral Researcher
- 2010.8-2016.2 Shanghai Institute of Life Sciences, CAS, Associate Researcher
- 2016.2-present South China Agricultural University, Professor
Academic Background & Achievements
- 1999-2003 Bachelor: Nanjing Forestry University, School of Forest Resources and Environmental Science
- 2003-2008 PhD: Nanjing Forestry University, School of Forest Resources and Environmental Science
- Member of the Youth Innovation Promotion Association CAS, 2016
- Third place, Guangdong Natural Science Award, 2021
Publications
- Selective breeding of cold-tolerant black soldier fly (Hermetia illucens) larvae: Gut microbial shifts and transcriptional patterns, Ma C, Huang ZJ, Feng XB, Memon FU, Cui Yi, Duan XY, Zhu JF, Tettamanti G, Hu WF, Tian L, 2024
- Identification of Host Molecules Involved in the Proliferation of Nucleopolyhedrovirus in Bombyx mori, Xu J, Xie X, Ma Q, Zhang L, Li Y, Chen Y, Li K, Xiao Y, Tettamanti G, Xu H, Tian L, 2022
- Transcriptional and post-transcriptional regulation of autophagy, Ma QQ, Long SH, Gan ZD, Tettamanti G, Li K, Tian L, 2022
- Transcription and post-translational regulation of autophagy in insects, Li RS, Xiao Y, Li K, Tian L, 2022
- Cholesterol derivatives induce dephosphorylation of the histone deacetylases Rpd3/HDAC1 to upregulate autophagy, Wu WM, Luo M, Li K, Dai YC, Yi HY, Zhong YJ, Cao Y, Tettamanti G, Tian L, 2021
- P300/HDAC1 regulates the acetylation/deacetylation and autophagic activities of LC3/Atg8-PE ubiquitin-like system, Wu WM, Li K, Guo SY, Xu J, Ma QQ, Li SY, Xu XY, Huang ZJ, Zhong YJ, Tettamanti G, Cao Y, Li S, Tian L, 2021
- Clathrin-dependent endocytosis predominantly mediates proteins absorption by fat body from hemolymph in Bombyx mori, Wang YJ, Li SY, Zhao JY, Li K, Xu J, Xu XY, Wu WM, Xiao Y, Ye MQ, Liu JP, Zhong YJ, Cao Y, Yi HY, Tian L, 2020
- Tip60 Phosphorylation at Ser 99 Is Essential for Autophagy Induction in Bombyx mori, Wu WM, Li K, Zhao Hg, Xu XY, Xu J, Luo M, Xiao Y, Tian L, 2020
- Steroid hormone 20-hydroxyecdysone induces the transcription and complex assembly of V-ATPases to facilitate autophagy in Bombyx mori, Dai YC, Li K, Wu WM, Wu KZ, Yi HY, Li WY, Xiao Y, Zhong YJ, Cao Y, Tian L, 2020
- Functional identification of Bombyx mori Atg13 in autophagy, Li SY, Xu J, Xu XY, Ma Wy, Tian L, Kang L, 2020
- 20-hydroxyecdysone-upregulated proteases involved in Bombyx larval fat body destruction, Guo SY, Wu WM, Li SY, Liu Y, Ye MQ, Xiao Y, Zhong YJ, Cao Y, Li K, Tian L, 2018
- BmATG5 and BmATG6 mediate apoptosis following autophagy induced by 20-hydroxyecdysone or starvation, Xie K, Tian L, Guo X, Li K, Li J, Deng X, Li Q, Xia Q, Zhong Y, Huang Z, Liu J, Li S, Yang W, Cao Y, 2016
- Bombyx E75 isoforms display stage- and tissue-specific response to 20-hydroxyecdysone, Li K, Guo E, Hossain M, Li Q, Cao Y, Tian L, Deng X, Li S, 2015
- Autophagy studies in Bombyx mori, Tian L, Li S, 2015
- 20-hydroxyecdysone upregulates Atg genes to induce autophagy in the Bombyx fat body, Tian L, Ma L, Guo E, Deng X, Ma S, Xia Q, Cao Y, Li S, 2013
Awards
- Member of the Youth Innovation Promotion Association CAS, 2016
- Third place, Guangdong Natural Science Award, 2021
