Molecular breeding and drought tolerance in chickpea
R Asati, MK Tripathi, S Tiwari, RK Yadav, N Tripathi - Life, 2022 - mdpi.com
Cicer arietinum L. is the third greatest widely planted imperative pulse crop worldwide, and it
belongs to the Leguminosae family. Drought is the utmost common abiotic factor on plants …
belongs to the Leguminosae family. Drought is the utmost common abiotic factor on plants …
Developing climate-resilient chickpea involving physiological and molecular approaches with a focus on temperature and drought stresses
Chickpea is one of the most economically important food legumes, and a significant source
of proteins. It is cultivated in more than 50 countries across Asia, Africa, Europe, Australia …
of proteins. It is cultivated in more than 50 countries across Asia, Africa, Europe, Australia …
Integrating genomics for chickpea improvement: achievements and opportunities
Key message Integration of genomic technologies with breeding efforts have been used in
recent years for chickpea improvement. Modern breeding along with low cost genotyping …
recent years for chickpea improvement. Modern breeding along with low cost genotyping …
Introgression of “QTL‐hotspot” region enhances drought tolerance and grain yield in three elite chickpea cultivars
With an aim of enhancing drought tolerance using a marker‐assisted backcrossing (MABC)
approach, we introgressed the “QTL‐hotspot” region from ICC 4958 accession that harbors …
approach, we introgressed the “QTL‐hotspot” region from ICC 4958 accession that harbors …
Recent advancement in OMICS approaches to enhance abiotic stress tolerance in legumes
The world is facing rapid climate change and a fast-growing global population. It is believed
that the world population will be 9.7 billion in 2050. However, recent agriculture production …
that the world population will be 9.7 billion in 2050. However, recent agriculture production …
[HTML][HTML] Unravelling the molecular mechanism underlying drought stress response in chickpea via integrated multi-omics analysis
Drought stress affects growth and productivity significantly in chickpea. An integrated multi-
omics analysis can provide a better molecular-level understanding of drought stress …
omics analysis can provide a better molecular-level understanding of drought stress …
Integrated multi‐omics analysis reveals drought stress response mechanism in chickpea (Cicer arietinum L.)
Drought is one of the major constraints limiting chickpea productivity. To unravel complex
mechanisms regulating drought response in chickpea, we generated transcriptomics …
mechanisms regulating drought response in chickpea, we generated transcriptomics …
Using mathematical models to evaluate germination rate and seedlings length of chickpea seed (Cicer arietinum L.) to osmotic stress at cardinal temperatures
Cicer arietinum is the 3rd most important cool season legume crop growing in vast arid and
semi-arid regions of the world. A lab experiment was designed using hydrothermal time …
semi-arid regions of the world. A lab experiment was designed using hydrothermal time …
Integrated transcriptome, small RNA and degradome sequencing approaches provide insights into Ascochyta blight resistance in chickpea
Ascochyta blight (AB) is one of the major biotic stresses known to limit the chickpea
production worldwide. To dissect the complex mechanisms of AB resistance in chickpea …
production worldwide. To dissect the complex mechanisms of AB resistance in chickpea …
Understanding the Impact of Drought in Coffea Genotypes: Transcriptomic Analysis Supports a Common High Resilience to Moderate Water Deficit but a Genotype …
Water scarcity is the most significant factor limiting coffee production, although some
cultivars can still have important drought tolerance. This study analyzed leaf transcriptomes …
cultivars can still have important drought tolerance. This study analyzed leaf transcriptomes …