JiIangwei Wu | lipid and glucose metabolism

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 🌟Prof Dr. JiIangwei Wu, A Heartfelt Congratulations on Receiving the Best Researcher Award!Β πŸŒŸπŸ†Β Β 
  • Prof Dr. JiIangwei Wu, Northwest A&F University, China: Research in lipid and glucose metabolism

Dr. Jiang Wei Wu, thrilled to extend my heartfelt congratulations to you on being recognized as the Best Researcher Award by ScienceFather. This prestigious award is a testament to your unwavering dedication, exceptional contributions, and groundbreaking work in the field of glucose and lipid metabolism.

Your numerous achievements, including your significant role in publications such as “GDF15 is a major determinant of ketogenic diet-induced weight loss” and “Dynamic 3D genome reorganization during development and metabolic stress of the porcine liver,” showcase your commitment to advancing our understanding of complex scientific concepts.

Your pioneering research on disorder of glucose and lipid metabolism, depot-specific fat accumulation, and muscle development in preclinical model pigs has not only enriched the academic community but also holds great promise for practical applications in the future.

Your success is an inspiration to us all, and we are fortunate to have a researcher of your caliber contributing to the advancement of knowledge. May this well-deserved recognition serve as a reminder of the impact your work has on the scientific community and beyond. Once again, congratulations on this remarkable achievement! Wishing you continued success in all your future endeavors.

Professional Profiles:

Education:

  • Bachelor of Animal Science, Northwest A&F University, China (1999-2003)
  • Master’s Degree in Animal Breeding and Genetics, Northwest A&F University, China (2003-2006)
  • PhD in Zoology, Northwest A&F University, China (2006-2011)
  • Joint PhD training, Montreal University, Canada (2008-2011)
  • Research assistant, Montreal University, Canada (2011-2012)
  • Postdoctoral researcher, Montreal University, Canada (2012-2016)
  • Professor, Northwest A&F University, China (2016-present)

Research Focus:

  • Disorder of glucose and lipid metabolism (obesity, fatty liver, etc.)
  • Depot-specific fat accumulation and muscle development in preclinical model pigs
  • Generation of gene-modified pigs for xenotransplantation and human diseases

Professional Recognition and Awards:

  • International Excellent Postdoctoral Fellowships in Canada (2012)
  • Postdoctoral Fellowship of the Medical Foundation of Quebec, Canada (2012)
  • Excellent Doctoral Dissertation in China (2014)
  • Innovative leading talents in science and technology from Shaanxi Province (2017)
  • Shaanxi youth science and technology pacesetter (2018)
  • The 12th Shaanxi Youth Science and Technology Award (2018)

Research Funding:

Dr. Wu has secured several research grants, including funding from the National Natural Science Foundation of China and the National Key Research and Development Program of China, among others.

Selected Publications:

Dr. Wu has authored numerous research articles, some of which are published in renowned scientific journals. Her work includes studies on GDF15, ZBED6, 3D genome reorganization, and various molecular mechanisms related to glucose and lipid metabolism.

These publications showcase her contributions to understanding the intricate processes involved in metabolic disorders, muscle development, and gene editing techniques.

It’s evident that Dr. Jiang Wei Wu has made significant contributions to the field of animal science and technology, particularly in advancing our understanding of metabolic processes and genetic modifications in pigs.

  1. GDF15 is a major determinant of ketogenic diet-induced weight loss
    • Authors: Lu, J.F., Zhu, M.Q., Xia, B., …, Li, X.M., Wu, J.W.
    • Published in: Cell Metabolism, 2023, 35(12), pp. 2165–2182.e7
  2. Loss of ZBED6 Protects Against Sepsis-Induced Muscle Atrophy by Upregulating DOCK3-Mediated RAC1/PI3K/AKT Signaling Pathway in Pigs
    • Authors: Liu, H., Pan, D., Li, P., …, Li, M., Wu, J.
    • Published in: Advanced Science, 2023, 10(29), 2302298
  3. A missense mutation in RRM1 contributes to animal tameness
    • Authors: Dou, M., Li, M., Zheng, Z., …, Wang, X., Jiang, Y.
    • Published in: Science Advances, 2023, 9(25), eadf4068
  4. Protocatechuic Acid Ameliorates High Fat Diet-Induced Obesity and Insulin Resistance in Mice
    • Authors: Xiang, Y., Huang, R., Wang, Y., …, Wu, J., Yang, G.
    • Published in: Molecular Nutrition and Food Research, 2023, 67(3), 2200244
  5. Dynamic 3D genome reorganization during development and metabolic stress of the porcine liver
    • Authors: Chen, L., Li, J., Yuan, R., …, Chen, Y., Li, M.
    • Published in: Cell Discovery, 2022, 8(1), 56
Author Metrics:

Citations:

Jiangwei Wu’s publications have received a total of 405 citations.

Documents:

Jiangwei Wu has authored 30 documents that are indexed by Scopus.

h-index:

The h-index for Jiangwei Wu is 12.

The h-index is a measure of both the productivity and impact of an author’s publications. An h-index of 12 means that there are 12 publications by the author that have each been cited at least 12 times.

Qianqian Zhang | Animal Nutrition

Posted on by ScienceFather

Β πŸ†Dr. Qianqian Zhang, πŸŽ‰Congratulations on receiving the Best Researcher Award! πŸ†

  • Dr. Qianqian Zhang, institute of animal nutrition, sichuan agricultural university, China : Animal Nutrition

Congratulations on receiving the Best Researcher Award! πŸŽ‰by ScienceFather This prestigious recognition is a testament to your outstanding contributions to the field of animal nutrition and microbiology. Your dedication, hard work, and innovative research have set a remarkable standard for excellence.

Your ability to delve into complex topics such as gut microbes, host immunity, and sow/weaning piglets has not only advanced scientific understanding but has also made a meaningful impact on the industry. Your numerous publications, including 11 SCI papers, reflect the depth and significance of your work.

May this award be a stepping stone to even greater achievements in your research journey. Your passion for advancing knowledge in your field is truly commendable, and we look forward to witnessing your continued success and groundbreaking contributions. Once again, congratulations on this well-deserved recognition! πŸŒŸπŸ‘

Professional Profiles:
Profile Summary:

Zhang Qianqian is a Chinese researcher with a strong academic background in animal resources science. Her Ph.D. research focuses on gut microbes, host immunity, and the well-being of sow and weaning piglets. She holds a Master’s degree from Sichuan Agricultural University and has published 13 papers, 11 of which are SCI-indexed with a notable Impact Factor. Her research spans various aspects of animal nutrition, microbiota modulation, and the impact of dietary supplements on growth performance and reproductive outcomes.

Education:
  • Ph.D., Dankook University, Department of Animal Resources Science, Lab. of Swine Nutrition & Feed Technology (2021.03-2023.12)
  • Master’s, Sichuan Agricultural University, Institute of Animal Nutrition
  • Undergraduate, Henan Agricultural University
Research Focus:

Ph.D. Period (Dankook University):

  1. Gut microbes and host immunity: Research on the composition of intestinal microecology and key immune factors and metabolites.
  2. Sow and weaning piglets.

Master’s Period (Sichuan Agricultural University):

  • Intestinal microorganisms of pregnant sows fermented soluble and insoluble fiber in vitro to explore the composition of microbiota and SCFA in the fermentation broth.
Professional Journey:
  • Current Position: Ph.D. candidate at Dankook University.
  • Previous Position: Master’s candidate at Sichuan Agricultural University.
Publications & Contributions:
  • Citations: 68 citations from 66 documents
  • Documents: 11
  • h-index: 4

The h-index is a measure of both the productivity and citation impact of a researcher’s publications. An h-index of 4 indicates that there are at least 4 papers that have been cited at least 4 times.

  • Publication Top Noted:

You have 13 published papers, including 11 SCI. Some examples include:

  1. Title: Effects of lysophospholipids and multi-enzymes on growth performance, antioxidant capacity, intestinal health, and cecal microflora of male cherry valley ducks
    • Authors: Zhang, Q., Li, J., Wang, J., Hua, L., Che, L.
    • Journal: Journal of Animal Science, 2023, 101(101)
    • Summary: The study explores the impact of lysophospholipids and multi-enzymes on various aspects of male cherry valley ducks, including growth performance, antioxidant capacity, intestinal health, and cecal microflora.

 

  1. Title: Multi-Enzyme Supplementation to Diets Containing 2 Protein Levels Affects Intramuscular Fat Content in Muscle and Modulates Cecal Microflora Without Affecting the Growth Performance of Finishing Pigs
    • Authors: Zhang, Q., Cho, S., Song, J., Han, K., Kim, I.H.
    • Journal: Probiotics and Antimicrobial Proteins, 2023
    • Summary: Investigates the influence of multi-enzyme supplementation on intramuscular fat content and cecal microflora in finishing pigs fed with diets containing different protein levels.

 

  1. Title: Pinecone oil supplemented to multiparous sows from 107 days prenatal to 21 days postpartum improves reproductive performance and milk composition and affects serum parameters
    • Authors: Zhang, Q., Cho, S., Kim, B., Kim, I.H.
    • Journal: Journal of Animal Physiology and Animal Nutrition, 2023
    • Summary: Examines the effects of pinecone oil supplementation on reproductive performance, milk composition, and serum parameters in multiparous sows.

 

  1. Title: The replacement of bacitracin methylene disalicylate with Bacillus subtilis PB6 in the diet of male Cherry Valley Ducks reduces the feed conversion ratio by improving intestinal health and modulating gut microbiota
    • Authors: Zhang, Q., Li, J., Wang, G., Wu, D., Che, L.
    • Journal: Poultry Science, 2022, 101(11), 102155
    • Summary: Explores the impact of replacing bacitracin with Bacillus subtilis PB6 on the feed conversion ratio, intestinal health, and gut microbiota in male Cherry Valley Ducks.

 

  1. Title: Rhodotorula benthica culture as an alternative to antibiotics improves growth performance by improving nutrients digestibility and intestinal morphology, and modulating gut microbiota of weaned piglets
    • Authors: Zhang, Q., Li, J., Yi, X., Wu, D., Che, L.
    • Journal: Frontiers in Microbiology, 2022, 13, 964531
    • Summary: Investigates the use of Rhodotorula benthica culture as an alternative to antibiotics, assessing its impact on growth performance, nutrient digestibility, intestinal morphology, and gut microbiota in weaned piglets.

 

  1. Title: Effects of Multi-Strain Probiotics and Perilla frutescens Seed Extract Supplementation Alone or Combined on Growth Performance, Antioxidant Indices, and Intestinal Health of Weaned Piglets
    • Authors: Li, J., Zhang, Q., Zhuo, Y., Zhao, X., Wu, D.
    • Journal: Animals, 2022, 12(17), 2246
    • Summary: Explores the effects of multi-strain probiotics and Perilla frutescens seed extract supplementation, either alone or in combination, on the growth performance, antioxidant indices, and intestinal health of weaned piglets.

 

  1. Title: Dietary Supplementation of Limosilactobacillus mucosae LM1 Enhances Immune Functions and Modulates Gut Microbiota Without Affecting the Growth Performance of Growing Pigs
    • Authors: Zhang, Q., Vasquez, R., Yoo, J.M., Kang, D.-K., Kim, I.H.
    • Journal: Frontiers in Veterinary Science, 2022, 9, 918114
    • Summary: Investigates the impact of dietary supplementation of Limosilactobacillus mucosae LM1 on immune functions and gut microbiota in growing pigs without affecting growth performance.

 

  1. Title: Micelle silymarin supplementation to fattening diet augments daily gain, nutrient digestibility, decreases toxic gas emissions, and ameliorates meat quality of fattening pigs
    • Authors: Zhang, Q., Kim, I.H.
    • Journal: Czech Journal of Animal Science, 2022, 67(4), pp. 125–136
    • Summary: Examines the effects of micelle silymarin supplementation to the fattening diet on daily gain, nutrient digestibility, toxic gas emissions, and meat quality in fattening pigs.

 

  1. Title: Micelle silymarin supplementation to sows’ diet from day 109 of gestation to entire lactation period enhances reproductive performance and affects serum hormones and metabolites
    • Authors: Zhang, Q., Ahn, J.M., Kim, I.H.
    • Journal: Journal of Animal Science, 2021, 99(12), skab354
    • Summary: Investigates the impact of micelle silymarin supplementation to sows’ diet on reproductive performance, serum hormones, and metabolites.

 

  1. Title: Dietary fiber sources for gestation sows: Evaluations based on combined in vitro and in vivo methodology
    • Authors: Mou, D., Li, S., Yan, C., Che, L., Wu, D.
    • Journal: Animal Feed Science and Technology, 2020, 269, 114636
    • Summary: Evaluates dietary fiber sources for gestation sows using combined in vitro and in vivo methodology.
Research Timeline:
  • 2021.03-2023.12: Ph.D. at Dankook University, focusing on gut microbes, host immunity, and sow/weaning piglets.
  • Master’s Period: Intestinal microorganisms of pregnant sows and fermented fibers.