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        <dc:title>Identification and characterization of herbicide&#13;
tolerant mutant lines using SNP marker(s) in&#13;
chickpea (Cicer arietinum L.)</dc:title>
        <dc:creator>Teggi, A.M.</dc:creator>
        <dc:subject>Chickpea</dc:subject>
        <dc:description>Chickpea is a major food legume and an important source of protein in many countries&#13;
of south Asia and sub-Saharan African. Globally, chickpea is cultivated over an area of 13.9&#13;
million hectares, with the production of 13.7 million tons. Besides a number of biotic and&#13;
abiotic stresses that lead to significant yield losses in chickpea, weeds are also reported to&#13;
reduce yield up to 84%, and severe yield losses as high as 98% are reported in autumn-sown&#13;
chickpea. Hand weeding and mechanical weed control methods traditionally followed are&#13;
becoming expensive owing to increased cost of human labour. Chickpea cultivars with&#13;
herbicide tolerance can serve as an alternative to this problem. Hence, it is essential to identify&#13;
sources of herbicide tolerance and utilize them in developing herbicide tolerant cultivars.&#13;
Development of chickpea cultivars with herbicide resistance is considered to be an&#13;
economic and effective way for weed control. Earlier studies have reported large genetic&#13;
variation existing in chickpea germplasm for Imidazolinone (IMI) herbicide tolerance.IMI&#13;
group of herbicides are considered as powerful means of weed control, and have many&#13;
agronomic advantages. Imidazolinones are protein synthesis inhibitors and act by inhibiting&#13;
the enzyme acetohydroxyacid synthase (AHAS, also known as acetolactate synthase, ALS),&#13;
which is a critical enzyme in the biosynthsis pathway of branched chain amino acids.&#13;
A point mutation in the chickpea AHAS gene at Cytocine675 to Thymin675 confers&#13;
resistance to imidazolinones. Thompson and Taran (2014) developed an allele-specific SNP&#13;
(KASPar) marker using this point mutation to predict the phenotypic response of the&#13;
genotypes to IMI herbicides. This KASPar marker was used to genotype set of forty EMS&#13;
mutant lines (developed in the background of JG 11 and KAK 2) and eighty four breeding&#13;
lines in this study. In total of 124 genotypes along with check varieties (JG 11 and KAK 2)&#13;
were phenotyped for herbicide resistance under field conditions at ICRISAT, Patancheru&#13;
during Rabi, 2016. Herbicide tolerance ratings based on plant injury on a 1-5 scale (Gaur et&#13;
al., 2013) was used for phenotyping. All the genotypes exhibited plant injury symptoms under&#13;
IMI herbicide treatment. Among 126 genotypes, 8 were highly susceptible, 24 were&#13;
moderately tolerant and others were susceptible. The highly susceptible lines had 80-100%&#13;
mortality. The genotypes which survived put forth secondary growth after 20-25 days of&#13;
herbicide application leading to flowering and pod set. Upon genotyping with the KASPar&#13;
marker 124 out of 126 genotypes yielded the fluorescent data. Graphical visualization of the SNP genotyping data (KlusterCaller software) showed all the genotypes forming a single&#13;
cluster near to allele ‘C’, associated with IMI susceptibility.&#13;
In addition to KASPar genotyping, an attempt was made to find the possibility of&#13;
other allelic variation associated with herbicide tolerance. The AHAS gene sequence was&#13;
blasted in the chickpea reference genome, and the best hit was used as query sequence to find&#13;
SNP candidates from the available resequencing data of chickpea genotypes. Among all the&#13;
variations obtained, one SNP showing consistent variation was selected and converted to&#13;
CAPS marker. Forty randomly selected genotypes belonging to different phenotypic classes&#13;
were analysed using the CAPS marker. All the genotypes exhibited similar banding pattern&#13;
showing no variation at the locus.&#13;
The KASPar marker reported by Thompson and Taran does not serve as a diagnostic&#13;
tool in identification of herbicide tolerance. As none of the genotypes used in the study were&#13;
highly resistant, further screening of a large set of germplasm lines for herbicide tolerance and&#13;
amplicon sequencing of the AHAS gene in these lines will help in the identification of&#13;
alternate alleles and the development of diagnostic marker for herbicide resistance.</dc:description>
        <dc:date>2017</dc:date>
        <dc:type>Thesis</dc:type>
        <dc:type>NonPeerReviewed</dc:type>
        <dc:format>application/pdf</dc:format>
        <dc:language>en</dc:language>
        <dc:identifier>http://oar.icrisat.org/10264/1/Thesis_ASHWINI.pdf</dc:identifier>
        <dc:identifier>  Teggi, A.M.  (2017) Identification and characterization of herbicide tolerant mutant lines using SNP marker(s) in chickpea (Cicer arietinum L.).  Masters thesis, Professor Jayashankar Telangana State Agriculture University.   </dc:identifier></oai_dc:dc>
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