Tanya Phongkham scite author profile

Tanya Phongkham

3Publications

60Citation Statements Received

120Citation Statements Given

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116

Affiliations

Agriculture and Food, Commonwealth Scientific and Industrial Research Organisation, Plant Industry

Publications

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The characterisation and mapping of a family of LMW-gliadin genes: effects on dough properties and bread volume

et al. 2003

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Analysis of a cDNA library from wheat cv Wyuna endosperm, indicated a significant size and sequence variation among seed-endosperm protein genes. In this study, a family of low-molecular-weight seed protein genes are analysed that are related to the gliadins and the low-molecular-weight glutenin subunits. Sequence analysis and comparison of these proteins showed that they are closely related to a 17-kDa protein from barley, epsilon hordein, which plays a role in beer foam stability in the brewing industry. Mapping of these genes in wheat shows that they are located on group 7 and 4 chromosomes, as opposed to a group 1 and 6 location for the glutenins and gliadins. It is possible that this family of proteins forms a new class of seed-endosperm proteins important in defining the quality characteristics of wheat flour. Therefore, a representative gene from this family was expressed in Escherichia coli and the purified protein was supplemented into a base wheat flour. Rheological analysis showed that the protein effected dough strength and resistance break down during mixing of the dough, and provided a 20% increase in loaf height after baking.

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Increase in coleoptile length and establishment by Lcol-A1, a genetic locus with major effect in wheat

et al. 2019

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Background Good establishment is important for rapid leaf area development in wheat crops. Poor establishment results in fewer, later-emerging plants, reduced leaf area and tiller number. In addition, poorly established crops suffer from increased soil moisture loss through evaporation and greater competition from weeds while fewer spikes are produced which can reduce grain yield. By protecting the emerging first leaf, the coleoptile is critical for achieving good establishment, and its length and interaction with soil physical properties determine the ability of a cultivar to emerge from depth. Results Here we characterise a locus on chromosome 1AS, that increases coleoptile length in wheat, which we designate as Lcol-A1. We identified Lcol-A1 by bulked-segregant analysis and used a Halberd-derived population to fine map the gene to a 2 cM region, equivalent to 7 Mb on the IWGSC genome reference sequence of Chinese Spring (RefSeqv1.0). By sowing recently released cultivars and near-isogenic lines in the field at both conventional and deep sowing depths, we confirmed that Locl-A1 was associated with increased emergence from depth in the presence and absence of conventional dwarfing genes. Flanking markers IWB58229 and IWA710 were developed to assist breeders to select for long coleoptile wheats. Conclusions Increased coleoptile length is sought in many global wheat production areas to improve crop emergence. The identification of the gene Lcol-A1 , together with tools to allow wheat breeders to track the gene, will enable improvements to be made for this important trait. Electronic supplementary material The online version of this article (10.1186/s12870-019-1919-3) contains supplementary material, which is available to authorized users.

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Molecular mapping of bunchy top disease resistance in Gossypium hirsutum L.

et al. 2016

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Cotton bunchy top (CBT) is an aphid transmitted Polerovirus disease and a significant threat to the Australian cotton industry. Symptoms include stunted plant growth, and leaves often display pale green angular patterns at the leaf margins and dark green centers with a leathery texture. Resistance to CBT was evaluated in 206 F 2 plants and 76 F 2:3 families derived from the resistant cultivar 'Delta Opal' crossed to the susceptible cultivar 'Sicot 70', and in 25 other cultivars the majority susceptible to CBT. CBT resistance in 'Delta Opal' was shown to be controlled by a single dominant locus designated Cbt. A combination of AFLP and single nucleotide polymorphism markers located Cbt on chromosome A10, close to the mapped resistance locus in 'Delta Opal' to another Polerovirus disease of cotton; cotton blue disease. The markers identified flanking CBT resistance will provide useful tools for breeders for markerassisted selection to alleviate the impact of this disease on cotton production.

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Tanya Phongkham

The characterisation and mapping of a family of LMW-gliadin genes: effects on dough properties and bread volume

Increase in coleoptile length and establishment by Lcol-A1, a genetic locus with major effect in wheat

Molecular mapping of bunchy top disease resistance in Gossypium hirsutum L.

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