Fatemeh Maghuly scite author profile

A collection of 133 apricot cultivars and three related species originating from different geographical regions were studied with 10 polymorphic microsatellite markers developed in apricot. Altogether, 133 alleles were identified in the set of accessions, with an average of 13.30 alleles per locus. Out of them, 32 alleles occurred only once in the investigated samples, especially in apricots originating from different eco-geographic groups or in different species. The observed heterozygosity for individual loci ranged from 0.8636 to 0.3182, with an average of 0.6281. An unweighted pair group method with arithmetic mean dendrogram based on Nei's genetic distance grouped the accessions according to their eco-geographical origin and/ or their pedigree information. Central Asian cultivars have a distinct position on the dendrogram, which supports the assumption that most cultivars have an Asian ancestor. Most East European cultivars analysed cluster together, and the data even revealed a few synonyms. Results show that American cultivars have not only European germ plasm in their pedigree, but they have also been enriched with germ plasm of Asian origin. The implications of these data for the use of simple sequence repeat (SSR) markers as a tool for fingerprinting cultivars in breeders' rights protection and apricot breeding are discussed. In this paper, we demonstrate for the first time the variability of apricot SSRs in a large collection of apricot cultivars and closely related species.

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Conformational changes of Mal d 2, a thaumatin-like apple allergen, induced by food processing

Marzban

Herndl

Pietrozotto

et al. 2009

Food Chemistry

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Jatropha curcas, a biofuel crop: Functional genomics for understanding metabolic pathways and genetic improvement

Maghuly

Laimer

2013

Biotechnology Journal

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Jatropha curcas is currently attracting much attention as an oilseed crop for biofuel, as Jatropha can grow under climate and soil conditions that are unsuitable for food production. However, little is known about Jatropha, and there are a number of challenges to be overcome. In fact, Jatropha has not really been domesticated; most of the Jatropha accessions are toxic, which renders the seedcake unsuitable for use as animal feed. The seeds of Jatropha contain high levels of polyunsaturated fatty acids, which negatively impact the biofuel quality. Fruiting of Jatropha is fairly continuous, thus increasing costs of harvesting. Therefore, before starting any improvement program using conventional or molecular breeding techniques, understanding gene function and the genome scale of Jatropha are prerequisites. This review presents currently available and relevant information on the latest technologies (genomics, transcriptomics, proteomics and metabolomics) to decipher important metabolic pathways within Jatropha, such as oil and toxin synthesis. Further, it discusses future directions for biotechnological approaches in Jatropha breeding and improvement.

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High-quality assembly of the reference genome for scarlet sage, Salvia splendens, an economically important ornamental plant

Dong

Xin

et al. 2018

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Background Salvia splendens Ker-Gawler, scarlet or tropical sage, is a tender herbaceous perennial widely introduced and seen in public gardens all over the world. With few molecular resources, breeding is still restricted to traditional phenotypic selection, and the genetic mechanisms underlying phenotypic variation remain unknown. Hence, a high-quality reference genome will be very valuable for marker-assisted breeding, genome editing, and molecular genetics.FindingsWe generated 66 Gb and 37 Gb of raw DNA sequences, respectively, from whole-genome sequencing of a largely homozygous scarlet sage inbred line using Pacific Biosciences (PacBio) single-molecule real-time and Illumina HiSeq sequencing platforms. The PacBio de novo assembly yielded a final genome with a scaffold N50 size of 3.12 Mb and a total length of 808 Mb. The repetitive sequences identified accounted for 57.52% of the genome sequence, and 54,008 protein-coding genes were predicted collectively with ab initio and homology-based gene prediction from the masked genome. The divergence time between S. splendens and Salvia miltiorrhiza was estimated at 28.21 million years ago (Mya). Moreover, 3,797 species-specific genes and 1,187 expanded gene families were identified for the scarlet sage genome.ConclusionsWe provide the first genome sequence and gene annotation for the scarlet sage. The availability of these resources will be of great importance for further breeding strategies, genome editing, and comparative genomics among related species.

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Genetic diversity in managed subpopulations of Norway spruce [Picea abies (L.) Karst.]

Maghuly

Pinsker

Praznik

et al. 2006

Forest Ecology and Management

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Fatemeh Maghuly

Microsatellite variability in apricots (Prunus armeniaca L.) reflects their geographic origin and breeding history

Conformational changes of Mal d 2, a thaumatin-like apple allergen, induced by food processing

Jatropha curcas, a biofuel crop: Functional genomics for understanding metabolic pathways and genetic improvement

High-quality assembly of the reference genome for scarlet sage, Salvia splendens, an economically important ornamental plant

Genetic diversity in managed subpopulations of Norway spruce [Picea abies (L.) Karst.]

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