S. K. Bhatnagar scite author profile

The genome of the japonica subspecies of rice, an important cereal and model monocot, was sequenced and assembled by whole-genome shotgun sequencing. The assembled sequence covers 93% of the 420-megabase genome. Gene predictions on the assembled sequence suggest that the genome contains 32,000 to 50,000 genes. Homologs of 98% of the known maize, wheat, and barley proteins are found in rice. Synteny and gene homology between rice and the other cereal genomes are extensive, whereas synteny with Arabidopsis is limited. Assignment of candidate rice orthologs to Arabidopsis genes is possible in many cases. The rice genome sequence provides a foundation for the improvement of cereals, our most important crops.

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A Draft Sequence of the Rice Genome ( Oryza sativa L. ssp. indica )

Goff¹,

Ricke²,

Lan³

et al. 2002

Science

3,198

1,187

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We have produced a draft sequence of the rice genome for the most widely cultivated subspecies in China, Oryza sativa L. ssp. indica, by whole-genome shotgun sequencing. The genome was 466 megabases in size, with an estimated 46,022 to 55,615 genes. Functional coverage in the assembled sequences was 92.0%. About 42.2% of the genome was in exact 20-nucleotide oligomer repeats, and most of the transposons were in the intergenic regions between genes. Although 80.6% of predicted Arabidopsis thaliana genes had a homolog in rice, only 49.4% of predicted rice genes had a homolog in A. thaliana. The large proportion of rice genes with no recognizable homologs is due to a gradient in the GC content of rice coding sequences.

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A High Quality Draft Consensus Sequence of the Genome of a Heterozygous Grapevine Variety

et al. 2007

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BackgroundWorldwide, grapes and their derived products have a large market. The cultivated grape species Vitis vinifera has potential to become a model for fruit trees genetics. Like many plant species, it is highly heterozygous, which is an additional challenge to modern whole genome shotgun sequencing. In this paper a high quality draft genome sequence of a cultivated clone of V. vinifera Pinot Noir is presented.Principal FindingsWe estimate the genome size of V. vinifera to be 504.6 Mb. Genomic sequences corresponding to 477.1 Mb were assembled in 2,093 metacontigs and 435.1 Mb were anchored to the 19 linkage groups (LGs). The number of predicted genes is 29,585, of which 96.1% were assigned to LGs. This assembly of the grape genome provides candidate genes implicated in traits relevant to grapevine cultivation, such as those influencing wine quality, via secondary metabolites, and those connected with the extreme susceptibility of grape to pathogens. Single nucleotide polymorphism (SNP) distribution was consistent with a diffuse haplotype structure across the genome. Of around 2,000,000 SNPs, 1,751,176 were mapped to chromosomes and one or more of them were identified in 86.7% of anchored genes. The relative age of grape duplicated genes was estimated and this made possible to reveal a relatively recent Vitis-specific large scale duplication event concerning at least 10 chromosomes (duplication not reported before).ConclusionsSanger shotgun sequencing and highly efficient sequencing by synthesis (SBS), together with dedicated assembly programs, resolved a complex heterozygous genome. A consensus sequence of the genome and a set of mapped marker loci were generated. Homologous chromosomes of Pinot Noir differ by 11.2% of their DNA (hemizygous DNA plus chromosomal gaps). SNP markers are offered as a tool with the potential of introducing a new era in the molecular breeding of grape.

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Frequency of mutations in individuals with breast cancer referred for BRCA1 and BRCA2 testing using next‐generation sequencing with a 25‐gene panel

Tung

Battelli

Allen

et al. 2014

Cancer

394

314

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BACKGROUND: Next-generation sequencing (NGS) allows for simultaneous sequencing of multiple cancer susceptibility genes and, for an individual, may be more efficient and less expensive than sequential testing. The authors assessed the frequency of deleterious germline mutations among individuals with breast cancer who were referred for BRCA1 and BRCA2 (BRCA1/2) gene testing using a panel of 25 genes associated with inherited cancer predisposition. METHODS: This was a cross-sectional study using NGS in 2158 individuals, including 1781 who were referred for commercial BRCA1/2 gene testing (cohort 1) and 377 who had detailed personal and family history and had previously tested negative for BRCA1/2 mutations (cohort 2). RESULTS: Mutations were identified in 16 genes, most frequently in BRCA1, BRCA2, CHEK2, ATM, and PALB2. Among the participants in cohort 1, 9.3% carried a BRCA1/2 mutation, 3.9% carried a mutation in another breast/ovarian cancer susceptibility gene, and 0.3% carried an incidental mutation in another cancer susceptibility gene unrelated to breast or ovarian cancer. In cohort 2, the frequency of mutations in breast/ovarian-associated genes other than BRCA1/2 was 2.9%, and an additional 0.8% had an incidental mutation. In cohort 1, Lynch syndrome-related mutations were identified in 7 individuals. In contrast to BRCA1/2 mutations, neither age at breast cancer diagnosis nor family history of ovarian or young breast cancer predicted for other mutations. The frequency of mutations in genes other than BRCA1/2 was lower in Ashkenazi Jews compared with non-Ashkenazi individuals (P5.026). CONCLUSIONS: Using an NGS 25-gene panel, the frequency of mutations in genes other than BRCA1/2 was 4.3%, and most mutations (3.9%) were identified in genes associated with breast/ovarian cancer. Cancer 2015;121:25-33. V C 2014 American Cancer Society.KEYWORDS: high-throughput nucleotide sequencing, breast neoplasms, genetic testing, BRCA1, BRCA2. INTRODUCTIONBreast cancer is expected to cause 40,000 deaths in the United States in 2014.1 This constitutes 7% of annual cancer deaths in the United States and underscores the importance of identifying at-risk individuals for prevention, early detection, and treatment. At least 10% of breast cancers occur in individuals who have germline mutations in highpenetrance or moderate-penetrance cancer susceptibility genes, which carry a relative cancer risk of >5-fold and 2-fold to 5-fold, respectively.2 Mutations in the early onset breast cancer genes BRCA1 and BRCA2 (BRCA1/2) are responsible for up to half of the heritable mutations in breast cancer. Although germline mutations in other recognized breast cancer susceptibility genes have been identified (eg, ataxia

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S. K. Bhatnagar

The genome of the domesticated apple (Malus × domestica Borkh.)

A Draft Sequence of the Rice Genome ( Oryza sativa L. ssp. japonica )

A Draft Sequence of the Rice Genome ( Oryza sativa L. ssp. indica )

A High Quality Draft Consensus Sequence of the Genome of a Heterozygous Grapevine Variety

Frequency of mutations in individuals with breast cancer referred for BRCA1 and BRCA2 testing using next‐generation sequencing with a 25‐gene panel

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