The potentiality of rice microsatellite markers in assessment of cross-species transferability and genetic diversity of rice and its wild relatives

Umakanta Ngangkham; Sofini Dash; Madhuchhanda Parida; Sanghamitra Samantaray; Devachandra Nongthombam; Manoj Kumar Yadav; Awadhesh Kumar; Parameswaran Chidambaranathan; Jawahar L Katara; Bhaskar C Patra; Lotan K Bose

doi:10.1007/s13205-019-1757-x

The potentiality of rice microsatellite markers in assessment of cross-species transferability and genetic diversity of rice and its wild relatives

3 Biotech. 2019 Jun;9(6):217. doi: 10.1007/s13205-019-1757-x. Epub 2019 May 20.

Affiliations

¹ 1ICAR-National Rice Research Institute, Cuttack, Odisha 753006 India.
² Present Address: ICAR-Research Complex for North East Hill Region, Umiam, 793103 India.
³ 2College of Horticulture and Forestry, Central Agricultural University (Imphal), Pasighat, 791102 Arunachal Pradesh India.

Abstract

The main aim of this study is to assess the potentiality of SSR markers for the identification of the cross-species transferability frequency in a large set of the diverse genome types of wild relative rice along with cultivated rice. Here, we used 18 different rice genotypes representing nine different genome types with 70 SSR markers to investigate the potentiality of cross-species transferability rate. The overall cross-species transferability of SSR markers across the 18 rice genotypes ranged from 38.9% (RM280 and RM447) to 100% (RM490, RM318, RM279, RM18877 and RM20033, RM19303) with an average of 76.58%. Also, cross-species transferability across chromosome ranged from 54.4% (chromosome 4) to 86.5% (chromosome 2) with an average of 74.35%. The polymorphism information content of the markers varied from 0.198 (RM263) to 0.868 (RM510) with a mean of 0.549 ± 0.153, showing high discriminatory power. The highest rate of cross-transferability was observed in O. rufipogon (97%), The highest rate of cross-species transferability was in O. rufipogon (97.00%), followed by O. glaberrima (94.20%), O. nivara (92.80%), Swarna (92.80%), O. longistaminata (91.40%), O. eichingeri (90%), O. barthii (88.50%), O. alta (82.80%), O. australiensis (77.10%), O. grandiglumis (74.20%), O. officinalis (74.20%), Zizania latifolia (70.00%), O. latifolia (68.50%), O. brachyantha (62.80%), Leersia perrieri (57.10%) and O. ridleyi (41.40%) with least in O. coarctata (28.50%). A total of 341 alleles from 70 loci were detected with the number of alleles per locus ranged from 2 to 12. Based on dendrogram analysis, the AA genome groups was separated as distinct group from the rest of the genome types. Similarly, principal coordinate analysis and structure analysis clearly separated the AA genome type from the rest of the genome types. Through the analysis of molecular variance, more variance (51%) was observed among the individual, whereas less (14%) was observed among the population. Thus, our findings may offer a valuable resource for studying the genetic diversity and relationship to facilitate the understanding of the complex mechanism of the origin and evolutionary processes of different Oryza species and wild relative rice.

Keywords: Cross-species transferability; Microsatellites; Oryza; Rice; SSR markers; Wild relative rice.