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Deciphering the mechanism of anhydrobiosis in the entomopathogenic nematode Heterorhabditis indica through comparative transcriptomics.
Balakumaran, Manimaran; Chidambaranathan, Parameshwaran; Tej Kumar J P, Jagannadham Prasanth; Sirohi, Anil; Kumar Jain, Pradeep; Gaikwad, Kishore; Iyyappan, Yuvaraj; Rao, Atmakuri Ramakrishna; Sahu, Sarika; Dahuja, Anil; Mohan, Sharad.
Affiliation
  • Balakumaran M; Division of Nematology, ICAR-Indian Agricultural Research Institute, New Delhi, India.
  • Chidambaranathan P; ICAR-National Institute for Plant Biotechnology, New Delhi, India.
  • Tej Kumar J P JP; ICAR-National Institute for Plant Biotechnology, New Delhi, India.
  • Sirohi A; Division of Nematology, ICAR-Indian Agricultural Research Institute, New Delhi, India.
  • Kumar Jain P; ICAR-National Institute for Plant Biotechnology, New Delhi, India.
  • Gaikwad K; ICAR-National Institute for Plant Biotechnology, New Delhi, India.
  • Iyyappan Y; ICAR-National Institute for Plant Biotechnology, New Delhi, India.
  • Rao AR; Centre for Agricultural Bioinformatics, ICAR-Indian Agricultural Statistics Research Institute, New Delhi, India.
  • Sahu S; Centre for Agricultural Bioinformatics, ICAR-Indian Agricultural Statistics Research Institute, New Delhi, India.
  • Dahuja A; Division of Biochemistry, ICAR-Indian Agricultural Research Institute, New Delhi, India.
  • Mohan S; Division of Nematology, ICAR-Indian Agricultural Research Institute, New Delhi, India.
PLoS One ; 17(10): e0275342, 2022.
Article de En | MEDLINE | ID: mdl-36301967
The entomopathogenic nematode, Heterorhabditis indica, is a popular biocontrol agent of high commercial significance. It possesses tremendous genetic architecture to survive desiccation stress by undergoing anhydrobiosis to increase its lifespan-an attribute exploited in the formulation technology. The comparative transcriptome of unstressed and anhydrobiotic H. indica revealed several previously concealed metabolic events crucial for adapting towards the moisture stress. During the induction of anhydrobiosis in the infective juveniles (IJ), 1584 transcripts were upregulated and 340 downregulated. As a strategy towards anhydrobiotic survival, the IJ showed activation of several genes critical to antioxidant defense, detoxification pathways, signal transduction, unfolded protein response and molecular chaperones and ubiquitin-proteasome system. Differential expression of several genes involved in gluconeogenesis - ß-oxidation of fatty acids, glyoxylate pathway; glyceroneogenesis; fatty acid biosynthesis; amino-acid metabolism - shikimate pathway, sachharopine pathway, kyneurine pathway, lysine biosynthesis; one-carbon metabolism-polyamine pathway, transsulfuration pathway, folate cycle, methionine cycle, nucleotide biosynthesis; mevalonate pathway; and glyceraldehyde-3-phosphate dehydrogenase were also observed. We report the role of shikimate pathway, sachharopine pathway and glyceroneogenesis in anhydrobiotes, and seven classes of repeat proteins, specifically in H. indica for the first time. These results provide insights into anhydrobiotic survival strategies which can be utilized to strengthen the development of novel formulations with enhanced and sustained shelf-life.
Sujet(s)

Texte intégral: 1 Collection: 01-internacional Base de données: MEDLINE Sujet principal: Transcriptome / Nematoda Limites: Animals Langue: En Journal: PLoS One Sujet du journal: CIENCIA / MEDICINA Année: 2022 Type de document: Article Pays d'affiliation: Inde Pays de publication: États-Unis d'Amérique

Texte intégral: 1 Collection: 01-internacional Base de données: MEDLINE Sujet principal: Transcriptome / Nematoda Limites: Animals Langue: En Journal: PLoS One Sujet du journal: CIENCIA / MEDICINA Année: 2022 Type de document: Article Pays d'affiliation: Inde Pays de publication: États-Unis d'Amérique