Sentence examples for development in chickpea from inspiring English sources

Hence, the TFs with well-characterized functional domains will serve as excellent candidates and valuable transcriptomic resource for novel sequence-based genic functional microsatellite marker development in chickpea.

Based on this, a set of trait-associated TF genes showing differential expression during seed development in chickpea genotypes was identified.

The EST database developed in this study provides a preliminary profile of some differentially expressed genes that may be associated with constitutive mechanisms important for stress tolerance and root development in chickpea roots.

The sequence variant analysis targeting beyond the 2 kb upstream and 1 kb downstream regulatory regions of CSN gene may provide additional clues regarding its differential regulation during seed development in chickpea.

Based on high homology with ARABIDILLO and preferential expression of Ca_16962 in root, it could be suggested that it may also have a similar role in promoting lateral root development in chickpea.

We evaluated the effect of TiO2 nanoparticles (NPs) on cold tolerance (CT) development in two chickpea (Cicer arietinum L). genotypes (Sel96Th11439, cold tolerant, and ILC533, cold susceptible) by using cDNA-amplified fragment length polymorphism (cDNA-AFLP) technique during the first and sixth days of cold stress (CS) at 4 °C.

These findings thus inferred the significant correlation between the number of microsatellite repeat units in the different sequence components (functional domain and 5′ UTR) of seed weight/size trait-specific TFFDMS and TFGMS associated TF genes and their differential expression in the genes preferentially with regard to seed development in contrasting chickpea genotypes.

None of the TFFDMS and seven (33.3%) of the 21 TFGMS markers associated seven TF genes revealed differential expression during seed development in two contrasting chickpea genotypes by both semi-quantitative and quantitative RT-PCR.

The purpose of the study was a comparative evaluation of presowing treatment with nanomolybdenum and microbiological preparation impact upon the development of adaptive responses in chickpea plants.

Taking into account the widespread use of microbiological origin preparation to improve the nitrogen fixation of plants, the purpose of our study was a comparative assessment of nanomolybdenum and microbiological preparations of Ryzobofitom impact upon the development of adaptive responses in chickpea plants.

Targeted EST development has already begun in chickpea, focusing on ABA-related mechanisms of water-deficit tolerance in epicotyl tissue [ 32].