Shivhare, R. and Lata, C.
(2017)
Exploration of genetic and genomic resources for abiotic and biotic stress tolerance in pearl millet.
Frontiers in Plant Science, 7.
pp. 1-17.
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Abstract
Pearl millet is one of the most important small-grained C4 Panicoid crops with a large
genome size (2352 Mb), short life cycle and outbreeding nature. It is highly resilient
to areas with scanty rain and high temperature. Pearl millet is a nutritionally superior
staple crop for people inhabiting hot, drought-prone arid and semi-arid regions of
South Asia and Africa where it is widely grown and used for food, hay, silage, bird
feed, building material, and fuel. Having excellent nutrient composition and exceptional
buffering capacity against variable climatic conditions and pathogen attack makes pearl
millet a wonderful model crop for stress tolerance studies. Pearl millet germplasm show
a large range of genotypic and phenotypic variations including tolerance to abiotic and
biotic stresses. Conventional breeding for enhancing abiotic and biotic stress resistance
in pearl millet have met with considerable success, however, in last few years various
novel approaches including functional genomics and molecular breeding have been
attempted in this crop for augmenting yield under adverse environmental conditions,
and there is still a lot of scope for further improvement using genomic tools. Discovery
and use of various DNA-based markers such as EST-SSRs, DArT, CISP, and SSCP-SNP
in pearl millet not only help in determining population structure and genetic diversity
but also prove to be important for developing strategies for crop improvement at a
faster rate and greater precision. Molecular marker-based genetic linkage maps and
identification of genomic regions determining yield under abiotic stresses particularly
terminal drought have paved way for marker-assisted selection and breeding of pearl
millet cultivars. Reference collections and marker-assisted backcrossing have also
been used to improve biotic stress resistance in pearl millet specifically to downy
mildew. Whole genome sequencing of pearl millet genome will give new insights for
processing of functional genes and assist in crop improvement programs through
molecular breeding approaches. This review thus summarizes the exploration of pearl
millet genetic and genomic resources for improving abiotic and biotic stress resistance
and development of cultivars superior in stress tolerance.
| Item Type: |
Article
|
| Uncontrolled Keywords: |
Diversity, downy mildew, germplasm, marker-assisted breeding, panicoid, quantitative trait loci, stress
tolerance, terminal drought |
| Author Affiliation: |
National Botanical Research Institute (CSIR), Lucknow, India, 2 Academy of Scientific and Innovative Research, New Delhi,
India |
| Subjects: |
Crop Improvement |
| Divisions: |
Millet |
| Depositing User: |
Mr T L Gautham
|
| Date Deposited: |
28 Aug 2018 07:51 |
| Last Modified: |
28 Aug 2018 07:51 |
| URI: |
http://eprints.icrisat.ac.in/id/eprint/15574 |
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