PT  - JOURNAL ARTICLE
AU  - Sumit Raj
AU  - Manoj Kumar
AU  - Alok Kumar Singh
AU  - Meenakshi Dua
AU  - Atul Kumar Johri
TI  - The Sugar Porter gene family of <em>Piriformospora indica</em>: Nomenclature, Transcript Profiling and Characterization
AID  - 10.1101/2021.03.11.434983
DP  - 2021 Jan 01
TA  - bioRxiv
PG  - 2021.03.11.434983
4099  - http://biorxiv.org/content/early/2021/03/12/2021.03.11.434983.short
4100  - http://biorxiv.org/content/early/2021/03/12/2021.03.11.434983.full
AB  - Piriformospora indica is one of the prominent mutualistic root endophyte known to overcome phosphate and nitrogen limitation in a wide variety of plant species, reciprocally takes up carbohydrates for its survival and growth. A total of nineteen potential hexose transporters have been identified from P. indica genome, that may contributes to its potential of carbohydrate assimilation from host plant. Phylogenetic analysis assembles it in 10 groups within 3 clusters. To ease the study, systematic nomenclature were provided to 19 putative hexose transporters as “PiST1-PiST19” in accordance to their appearance on the supercontigs genome sequence of P. indica. The protein length ranges from 487 to 608 amino acids. Out of 19 putative hexose transporters, 9 have been predicted to contain 12 transmembrane domains (PiST1, PiST2, PiST5, PiST6, PiST9, PiST10, PiST11, PiST12 and PiST17), along with MFS family and Sugar porter subfamily motif. Therefore, transcripts were detected for these 9 genes. During colonization, three P. indica genes PiST1, PiST5 and PiST9 have shown induction as compared to axenic culture. Similarly during phosphate starvation, revealed PiST12 to be strongly enhanced. Carbon starvation study in liquid axenic culture resulted in induction of 4 genes, PiST6, PiST9, PiST12 and PiST17. We found co-relation in the expression pattern of PiPT and PiST12 during phosphate starvation. In silico analysis revealed the presence of functional conserved fucose permease (FucP) domain, involved in fructose transport. Phylogenetic analysis revealed that PiST12 groups closely with basidiomycetes hexose transporters. Further, functional complementation of Δhxt null mutant revealed, PiST12 is able to complement growth on fructose and galactose but negligible on glucose.Competing Interest StatementThe authors have declared no competing interest.