Your search keyword '"Chiara Ferrandi"' showing total 2 results

1. Segmental duplications are hot spots of copy number variants affecting barley gene content

Author

Chiara Ferrandi, Robbie Waugh, Gianluca Bretani, Paolo Bagnaresi, Luigi Cattivelli, Agostino Fricano, Benjamin Kilian, Joanne Russell, and Laura Rossini

Subjects

0106 biological sciences, 0301 basic medicine, DNA Copy Number Variations, Plant Science, Biology, Genes, Plant, 01 natural sciences, Chromosomes, Plant, 03 medical and health sciences, Segmental Duplications, Genomic, Genetics, Copy-number variation, segmental duplications, Domestication, Gene, Phylogeny, Exome sequencing, Sequence (medicine), Segmental duplication, 2. Zero hunger, Genetic diversity, barley, food and beverages, Hordeum, Original Articles, Cell Biology, 030104 developmental biology, Original Article, exome sequencing, Genome, Plant, copy number variants, 010606 plant biology & botany, Reference genome

Abstract

SUMMARY Copy number variants (CNVs) are pervasive in several animal and plant genomes and contribute to shaping genetic diversity. In barley, there is evidence that changes in gene copy number underlie important agronomic traits. The recently released reference sequence of barley represents a valuable genomic resource for unveiling the incidence of CNVs that affect gene content and for identifying sequence features associated with CNV formation. Using exome sequencing and read count data, we detected 16 605 deletions and duplications that affect barley gene content by surveying a diverse panel of 172 cultivars, 171 landraces, 22 wild relatives and other 32 uncategorized domesticated accessions. The quest for segmental duplications (SDs) in the reference sequence revealed many low‐copy repeats, most of which overlap predicted coding sequences. Statistical analyses revealed that the incidence of CNVs increases significantly in SD‐rich regions, indicating that these sequence elements act as hot spots for the formation of CNVs. The present study delivers a comprehensive genome‐wide study of CNVs affecting barley gene content and implicates SDs in the molecular mechanisms that lead to the formation of this class of CNVs., Significance Statement In the present study, we examined the diversity and distribution of CNVs that affect gene content in 397 diverse barley accessions. Leveraging the reference sequence of the barley cultivar ‘Morex’, we show that CNVs occur preferentially in SD‐rich regions.

Published

2020

2. Exome sequences and multi‐environment field trials elucidate the genetic basis of adaptation in barley

Author

Enes Yakışır, Ian K. Dawson, Noemi Trabanco, Chiara Ferrandi, Robbie Waugh, Laura Rossini, Mária Megyeri, Joanne Russell, Hakan Özkan, Martin Mascher, Peter Werner, Daniela Bustos-Korts, Stefano Delbono, Péter Mikó, Fred A. van Eeuwijk, Davide Cammarano, Esra Çakır, Márta Molnár-Láng, Nils Stein, Luigi Cattivelli, Allan Booth, Davide Guerra, Stylianos Kyriakidis, Benjamin Kilian, Ezequiel L. Nicolazzi, Alessandro Tondelli, Francesco Strozzi, and Çukurova Üniversitesi

Subjects

0106 biological sciences, 0301 basic medicine, Acclimatization, adaptation, Plant Science, Wiskundige en Statistische Methoden - Biometris, 01 natural sciences, Linkage Disequilibrium, H. vulgare ssp. vulgare, Exome, genotype-by-environment interactions, 2. Zero hunger, Geography, food and beverages, genetic diversity, PE&RC, Biometris, Phenotype, Trait, Original Article, Crops, Agricultural, Genotype, Quantitative Trait Loci, Context (language use), Biology, Polymorphism, Single Nucleotide, Life history theory, genotype‐by‐environment interactions, 03 medical and health sciences, Circadian Clocks, Exome Sequencing, Genetics, Domestication, Mathematical and Statistical Methods - Biometris, Genetic diversity, business.industry, Genetic Variation, barley, Hordeum, Original Articles, Cell Biology, 15. Life on land, Plant Breeding, 030104 developmental biology, Haplotypes, Evolutionary biology, Agriculture, common garden trials, exome sequence haplotypes, Adaptation, business, Genome-Wide Association Study, 010606 plant biology & botany

Abstract

Summary Broadening the genetic base of crops is crucial for developing varieties to respond to global agricultural challenges such as climate change. Here, we analysed a diverse panel of 371 domesticated lines of the model crop barley to explore the genetics of crop adaptation. We first collected exome sequence data and phenotypes of key life history traits from contrasting multi‐environment common garden trials. Then we applied refined statistical methods, including some based on exomic haplotype states, for genotype‐by‐environment (G×E) modelling. Sub‐populations defined from exomic profiles were coincident with barley's biology, geography and history, and explained a high proportion of trial phenotypic variance. Clear G×E interactions indicated adaptation profiles that varied for landraces and cultivars. Exploration of circadian clock‐related genes, associated with the environmentally adaptive days to heading trait (crucial for the crop's spread from the Fertile Crescent), illustrated complexities in G×E effect directions, and the importance of latitudinally based genic context in the expression of large‐effect alleles. Our analysis supports a gene‐level scientific understanding of crop adaption and leads to practical opportunities for crop improvement, allowing the prioritisation of genomic regions and particular sets of lines for breeding efforts seeking to cope with climate change and other stresses., Significance Statement We analysed exome sequence data and life history traits measured in multi‐environment trials of a diverse panel of 371 domesticated barley lines to explore the genetics of crop adaptation. G×E interactions indicated adaptation profiles that varied for sub‐populations defined from exomic data. Exploration of circadian clock‐related genes associated with days to heading revealed complexities in G×E effect directions, and the importance of latitudinally based genic context in the expression of large effect alleles. Analysis provides practical information for future crop breeding.

Published

2019