Your search keyword '"Shridhar Jambagi"' showing total 2 results

1. An endophyte from salt-adapted Pokkali rice confers salt-tolerance to a salt-sensitive rice variety and targets a unique pattern of genes in its new host

Author

Shridhar Jambagi, R. Uma Shaanker, M. M. Vasantha Kumari, Megha Hastantram Sampangi-Ramaiah, Kundapura V. Ravishankar, G. Ravikanth, Ralf Oelmüller, Prajjal Dey, Karaba N. Nataraja, and Jagadheesh

Subjects

0106 biological sciences, 0301 basic medicine, Salinity, Molecular biology, lcsh:Medicine, Sodium Chloride, 01 natural sciences, Endophyte, Plant Roots, Transcriptome, chemistry.chemical_compound, Gene Expression Regulation, Plant, Endophytes, Protein Interaction Maps, lcsh:Science, Abiotic component, Multidisciplinary, biology, food and beverages, Salt Tolerance, Shoot, Medicine, Plant Shoots, Quality Control, Science, Genes, Plant, Article, 03 medical and health sciences, Stress, Physiological, Botany, Secondary metabolism, Gene, Mycelium, lcsh:R, Sodium, Reproducibility of Results, Molecular Sequence Annotation, Oryza, Biotic stress, biology.organism_classification, 030104 developmental biology, Gene Ontology, chemistry, Chlorophyll, Potassium, lcsh:Q, Plant sciences, 010606 plant biology & botany

Abstract

Endophytes, both of bacterial and fungal origin, are ubiquitously present in all plants. While their origin and evolution are enigmatic, there is burgeoning literature on their role in promoting growth and stress responses in their hosts. We demonstrate that a salt-tolerant endophyte isolated from salt-adapted Pokkali rice, a Fusarium sp., colonizes the salt-sensitive rice variety IR-64, promotes its growth under salt stress and confers salinity stress tolerance to its host. Physiological parameters, such as assimilation rate and chlorophyll stability index were higher in the colonized plants. Comparative transcriptome analysis revealed 1348 up-regulated and 1078 down-regulated genes in plants colonized by the endophyte. Analysis of the regulated genes by MapMan and interaction network programs showed that they are involved in both abiotic and biotic stress tolerance, and code for proteins involved in signal perception (leucine-rich repeat proteins, receptor-like kinases) and transduction (Ca2+ and calmodulin-binding proteins), transcription factors, secondary metabolism and oxidative stress scavenging. For nine genes, the data were validated by qPCR analysis in both roots and shoots. Taken together, these results show that salt-adapted Pokkali rice varieties are powerful sources for the identification of novel endophytes, which can be used to confer salinity tolerance to agriculturally important, but salt-sensitive rice varieties.

Published

2020

2. Identification and Expression Analysis of Fragaria Vesca MLO Genes Involved in Interaction with Powdery Mildew (Podosphaera Aphanis)

Author

Shridhar Jambagi and Jim M. Dunwell

Subjects

Mildew, Woodland Strawberry, Arabidopsis, fungi, Botany, food and beverages, Locus (genetics), Biology, biology.organism_classification, Fragaria, Gene, Genome, Powdery mildew

Abstract

Strawberry powdery mildew, caused by Podosphaeraaphanis is a major fungal disease that affects strawberry yield and quality. In the model plant species Arabidopsis and the crop plants barley, tomato and pea, the Mildew resistance locus O (MLO) proteins have been found to be required for powdery mildew susceptibility. The present study, based on the sequence of a wild plum (Prunus americana) MLO protein, identified 16 MLO genes within the genome of woodland strawberry, Fragaria vesca and examined their expression pattern in response to powdery mildew infection in three diploid strawberry cultivars. Phylogenetic analysis showed that the FvMLO genes can be classified into six clades. Four FvMLO genes were grouped into clade III, which comprises MLO genes from Arabidopsis, tomato and grapevine that mediate powdery mildew susceptibility. A RNA-seq analysis of two diploid strawberry cultivars, F. vescassp. vesca accession Hawaii 4 (HW) and F. vesca f. semperflorens line “Yellow Wonder 5AF7” (YW) at 1 d (1 DAI) and 8 d (8 DAI) after infection showed the expression of 12 out of the 16 FvMLO genes. The comparison of Fragments Per Kilobase of transcript per Million mapped reads (FPKM values) detected by RNA-seq and expression values of qRT-PCR for FvMLO genes showed substantial agreement. The FvMLO3 gene, which was grouped in clade III and orthologous to the Arabidopsis,tomato and grapevine genes, was highly expressed in YW compared to other FvMLO genes across varieties. The results showed that FvMLO genes can be used as potential candidates to engineer powdery mildew resistance in strawberry based on MLO suppression or genome editing.

Published

2017