Abstract

DUF221 domain-containing genes (DDP genes) play important roles in developmental biology, hormone signalling transduction, and responses to abiotic stress. Therefore to understand their structural and evolutionary relationship, we did a genome-wide analysis of this important gene family in rice. Further, through comparative genomics, DDP genes from Oryza sativa subsp. (indica), nine different wild species of rice and Arabidopsis were also identified. We also found an expansion of the DDP gene families in rice and Arabidopsis which is due to the segmental duplication events in some of the gene family members. In general, a highly purifying selection was found acting on all the deduced paralogous and orthologous DDP gene pairs. The data from microarray and subsequent qRT-PCR analysis revealed that although several OsDDPs were differentially regulated under salinity stress, yet OsDDP6 was upregulated at all the developmental stages in salt tolerant rice genotype, FL478. Interestingly, OsDDP6 was found to be involved in proline metabolism pathway as indicated by protein network analysis. The diverse gene structures, varied transmembrane topologies and the differential expression patterns implied the functional diversity in DDP genes. Therefore, the comprehensive evolutionary analysis of DDP genes from different Oryza species and Arabidopsis performed in this study will provide the basis for further functional validation studies vis-à-vis DDP genes of rice and other plant species.

Highlights

  • Excess soil salinity is an important abiotic stress that adversely affects growth and development of plants

  • Based on the presence of DUF221 domain, a genome-wide investigation led to identification of 10 members of DUF221 domain containing proteins (DDPs) gene family each in O. sativa, O. barthi, O. brachyantha, O. glaberrima, O. longistaminata, O. meridionalis, O. nivara, O. rufipogon and O. sativa; whereas only nine members were found in O. glumaepatula and O. punctata

  • It was found that rice DDPs displayed similar organization of DUF221 and other two domains when compared with their orthologues in different wild rice species as well as Arabidopsis

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Summary

Introduction

Excess soil salinity is an important abiotic stress that adversely affects growth and development of plants. Rice is one of the most important cereals of the world. Rice plant is regarded as sensitive to salinity stress. High salinity stress causes severe impact on millions of hectares of agricultural land worldwide [1, 2]. Accumulation of salts in the irrigated soil is one of the prime factors that lowers water availability to root cells of rice plants due to their reduced osmotic potential, diminish growth, development and yield of rice [3,4].

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