Boukaga Farmani | Food Technology | Best Researcher Award

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Assoc. Prof. Dr  Boukaga  Farmani | Food Technology |  Best Researcher Award

Academic staff at  University of Tabriz,  Iran

Dr. Boukaga Farmani is a researcher at the University of Tabriz, specializing in Food Technology. His contributions focus on improving postharvest quality, food preservation, and the development of innovative processing methods.

Profile:

Notable Research Contributions:

  1. Chilling Tolerance in Tomato Fruits: His study on employing exogenous melatonin to enhance chilling tolerance in tomatoes, published in Food Chemistry, has been cited 224 times.
  2. Calcium’s Role in Postharvest: A comprehensive review on calcium’s importance in postharvest life, published in Scientia Horticulturae, cited 201 times.
  3. Brassinosteroids in Chilling Stress: Research on brassinosteroids’ effect on PAL activity in tomatoes under chilling stress, also in Scientia Horticulturae, cited 136 times.
  4. GABA Pathway Activation: Investigation into melatonin-induced activation of the GABA shunt pathway during cold storage in tomatoes, cited 106 times.

Recent Innovations:

  • Food Preservation: Use of β-aminobutyric acid to enhance decay tolerance in strawberries and minimize aflatoxin accumulation in pistachios.
  • Juice Processing: Advances in ultrafiltration techniques for pomegranate juice clarification and sugarcane juice refinement.

Citation Metrics:

  • Citations: 821 (618 since 2020)
  • h-index: 9 (8 since 2020)
  • i10-index: 8 (7 since 2020)

Publication Top Notes:

  1. Employing exogenous melatonin confers chilling tolerance in tomato fruits by upregulating ZAT2/6/12, promoting endogenous polyamines, proline, and nitric oxide
    Food Chemistry, 275, 549-556 (2019)
    Citations: 224
  2. The language of calcium in postharvest life of fruits, vegetables, and flowers
    Scientia Horticulturae, 144, 102-115 (2012)
    Citations: 202
  3. Impact of postharvest brassinosteroids treatment on PAL activity in tomato fruit in response to chilling stress
    Scientia Horticulturae, 144, 116-120 (2012)
    Citations: 137
  4. Melatonin treatment promotes endogenous melatonin accumulation and triggers GABA shunt pathway activity in tomato fruits during cold storage
    Scientia Horticulturae, 254, 222-227 (2019)
    Citations: 104
  5. β-Aminobutyric acid treatment confers decay tolerance in strawberry fruit by warranting sufficient cellular energy
    Scientia Horticulturae, 240, 249-257 (2018)
    Citations: 34
  6. Exogenous adenosine triphosphate application retards cap browning in Agaricus bisporus during low-temperature storage
    Food Chemistry, 293, 285-290 (2019)
    Citations: 32
  7. Efficacy of stinging nettle extract in combination with ε-polylysine on the quality, safety, and shelf life of rainbow trout fillets
    Food Science & Nutrition, 9(3), 1542-1550 (2021)
    Citations: 23
  8. Determining optimum conditions for sugarcane juice refinement by pilot plant dead-end ceramic micro-filtration
    *Journal of Agricultural Science and Technology

 

Mingdong Yao | Food | Best Researcher Award

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Assoc. Prof. Dr  Mingdong  Yao | Food |  Best Researcher Award

Associate professor at  Tianjin University, China

Assoc. Prof. Dr. Mingdong Yao is an Associate Professor at Tianjin University, where he works at the Frontiers Science Center for Synthetic Biology and the School of Chemical Engineering and Technology. He earned his Ph.D. in Applied Life Chemistry from the University of Tokyo, Japan. Dr. Yao has made significant contributions to the fields of synthetic biology, microbial cell factories, biocatalysis, and enzyme engineering.

 

Publication Profile

Academic Background:

Dr. Mingdong Yao received his PhD in Applied Life Chemistry from the University of Tokyo, Japan. He is currently an Associate Professor at the Frontiers Science Center for Synthetic Biology and the School of Chemical Engineering and Technology at Tianjin University, China.

Research Focus:

Dr. Yao’s research expertise includes synthetic biology, microbial cell factories, biocatalysis, and enzyme engineering. His work focuses on the design, development, and optimization of key functional enzymes in biosynthetic pathways.

Key Contributions:

Dr. Yao has significantly advanced the construction of cell factories, improving the production of lipophilic compounds in yeast by extending the cellular G1 phase and enhancing enzyme expression. He also developed a rational enzyme assembly strategy, improving the biosynthesis efficiency of terpenoid products. Additionally, his work in enzyme design has led to the functional expansion of adenosinase to halogenase.

Research Projects:

He has completed several major research projects, including a National Natural Science Foundation project, two subprojects of the National Key Research and Development Program of China, and a Tianjin Natural Science Foundation project. He is currently leading another subproject of the National Key Research and Development Program of China.

Awards and Recognition:

Dr. Yao’s research has been widely recognized internationally, contributing significantly to the fields of synthetic biology and enzyme engineering.

Citations:

  • Total Citations: 1,276
  • Citations by Documents: 1,015
  • Number of Documents: 65
  • h-index: 20

Publication Top Note:

  • Systematic metabolic engineering enables highly efficient production of vitamin A in Saccharomyces cerevisiae
    Shi, Y., Lu, S., Zhou, X., Xiao, W., Yao, M.
    Synthetic and Systems Biotechnology, 2025, 10(1), pp. 58–67.
  • Extending the G1 phase improves the production of lipophilic compounds in yeast by boosting enzyme expression and increasing cell size
    Hao, H., Yao, M., Wang, Y., Xiao, W., Yuan, Y.
    Proceedings of the National Academy of Sciences of the United States of America, 2024, 121(47), e2413486121.
  • A customized self-assembled synergistic biocatalyst for plastic depolymerization
    Zhang, W., Han, Y., Yang, F., Yao, M., Qin, H.-M.
    Journal of Hazardous Materials, 2024, 477, 135380.
  • Improving the expression of taxadiene synthase to enhance the titer of taxadiene in Saccharomyces cerevisiae
    Zhang, C., Wang, J., Shi, Y., Yao, M., Yuan, Y.
    Green Chemistry, 2024, 26(20), pp. 10604–10616.
  • Highly efficient synthesis of lysergic acid using engineered budding yeast
    Wu, N., Yao, M., Xiao, W., Wang, Y., Yuan, Y.-J.
    Green Chemistry, 2024, 26(19), pp. 10330–10343.
  • Systematic Engineering to Enhance β-Myrcene Production in Yeast
    Shu, Y., Dong, T., Zhou, X., Wang, Y., Xiao, W.
    Journal of Agricultural and Food Chemistry, 2024, 72(35), pp. 19395–19402.
  • Biotransformation of ethylene glycol by engineered Escherichia coli
    Yan, W., Qi, X., Cao, Z., Ding, M., Yuan, Y.
    Synthetic and Systems Biotechnology, 2024, 9(3), pp. 531–539.
  • Multidimensional combinatorial screening for high-level production of erythritol in Yarrowia lipolytica
    Li, L., Zhang, Q., Shi, R., Lu, F., Qin, H.-M.
    Bioresource Technology, 2024, 406, 131035.
  • Research Progress in the Synthesis of Astaxanthin by Yeast
    Shu, Y., Wang, Y., Yao, M., Xiao, W.
    China Biotechnology, 2024, 44(6), pp. 116–128.
  • Molecular Insights into Converting Hydroxide Adenosyltransferase into Halogenase
    Jiang, Y., Yao, M., Feng, J., Dong, M., Yuan, Y.
    Journal of Agricultural and Food Chemistry, 2024, 72(22), pp. 12685–12695.