ИССЛЕДОВАНИЕ ВТОРИЧНЫХ МЕТАБОЛИТОВ ГРИБА TRICHODERMA VIRIDE СОВРЕМЕННЫМИ БИООРГАНИЧЕСКИМИ МЕТОДАМИ.

Authors

  • Shomurodova Marjona QarshiDU
  • Roʻziyeva Zarnigor QarshiDU
  • Сhoriyeva Kumush QarshiDU

Keywords:

Trichoderma viride, secondary metabolite

Abstract

Abstract:Nowadays, the environment, ecology, artificial food and synthetic drugs have a negative effect on the human body. As a result, many new diseases are emerging. One of the main tasks of bioorganic chemistry is to help humanity by increasing natural drugs. we talked about isolation and study of their physiological activity.

References

Jaklitsch, Walter M.; Samuels, Gary J.; Dodd, Sarah L.; Lu, Bing-Sheng; Druzhinina, Irina S. (2006). "Hypocrea rufa/Trichoderma viride: a reassessment, and description of five closely related species with and without warted conidia". Studies in Mycology. 56: 135–177. doi:10.3114/sim.2006.56.04. PMC 2104735. PMID 18490991.

Tom Volk's Fungus of the Month Li Destri Nicosia, M. G.; Mosca, S.; Mercurio, R.; Schena, L. (2015). "Dieback of Pinus nigra Seedlings Caused by a Strain of Trichoderma viride". Plant Disease. 99 (1): 44–49. doi:10.1094/PDIS-04-14-0433-RE. PMID 30699733. Neem Products

Heikinheimo, L., Buchert, J., Miettinen-Oinonen, A., & Suominen, P. (2000). Treating Denim Fabrics with Trichoderma Reesei Cellulases. Textile Research Journal, 70(11), 969–973. https://doi.org/10.1177/004051750007001106

Kamalov, L. S., Turgunov, K. K., Aripova, S. F., & Abdilalimov, O. (2018). Gibberillin A-3 from the microscopic fungus Trichoderma harzianum. Chemistry of Natural Compounds, 54, 421-422.

Kadirova, D. B., Kamalov, L. S., Bobakulov, K. M., & Aripova, S. F. (2013). Chemical constituents of the toxic mold Stachybotrys chartarum. Chemistry of Natural Compounds, 49, 583-584.

Kamalov, L. S., Aripova, S. F., & Isaev, M. I. (1997). Low-molecular fungus metabolites. 1. Stachybotryne from Stachybotrys alternans. KHIMIYA PRIRODNYKH SOEDINENII, (4), 599-607.

Kamalov, L. S., Aripova, S. F., Tashkhodzhaev, B. T., & Isaev, M. I. (1998). Low-molecular-weight metabolites of fungi. II. Refinement of the structure of stachybotrin. Chemistry of natural compounds, 34, 605-608.

Kamalov, L. S., Aripova, S. F., & Isaev, M. I. (1998). Low-molecular-mass metabolites of fungi. III. Stachybotrolide from Stachybotrys alternans. Chemistry of natural compounds, 34, 616-619.

Umirov, N. N., Norkulov, F. N., & Dzhalilov, A. T. (2019). AN OXYGEN-CONTAINING MODIFIER THAT INCREASES THE NUMBER OF OCTANES PROCESSED ON THE BASIS OF SECONDARY RAW MATERIALS. Scientific and Technical Journal of Namangan Institute of Engineering and Technology, 1(9), 20-26.

Norbutayevich, Nurbek Umirov, Fayzulla Nurkulov Nurmuminovich, and Abdulakhat Djalilov Turopovich. "The study of the IR spectra of technopolises modifiers." Austrian Journal of Technical and Natural Sciences 7-8 (2019): 80-86.

Norbutayevich, Nurbek Umirov, Fayzulla Nurkulov Nurmuminovich, and Abdulakhat Djalilov Turopovich. "Development of gasoline composition compounded with the use of anti-knock modifier a-18." Austrian Journal of Technical and Natural Sciences 7-8 (2019): 76-79.

УМИРОВ, Н. Н. ХРОМАТОГРАФИЧЕСКАЯ ГАЗОВАЯ ХРОМАТОГРАФИЯ СО СТАБИЛЬНЫМ СПЕКТРОМ МАСС-СПЕКТРОМЕТРИИ КИСЛОРОДСОДЕРЖАЩИХ ОРГАНИЧЕСКИХ ПОЛИФУНКЦИОНАЛЬНЫХ МОДИФИКАТОРОВ В АВТОМОБИЛЬНОМ ТОПЛИВЕ. UNIVERSUM, 66-71.

Downloads

Published

2023-11-02

How to Cite

Shomurodova , M., Roʻziyeva , Z., & Сhoriyeva K. (2023). ИССЛЕДОВАНИЕ ВТОРИЧНЫХ МЕТАБОЛИТОВ ГРИБА TRICHODERMA VIRIDE СОВРЕМЕННЫМИ БИООРГАНИЧЕСКИМИ МЕТОДАМИ. Theoretical and Experimental Chemistry and Modern Problems of Chemical Technology, 1(01). Retrieved from https://ojs.qarshidu.uz/index.php/ch/article/view/64