Genetic analysis of some flowering time and adaptive traits in wheat

Law, C. N.; Worland, A. J.

doi:10.1046/j.1469-8137.1997.00814.x

Cited by 105 publications

(52 citation statements)

References 20 publications

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“…The existence of a homoeologous gene on 5B to Vrn-A1 and Vrn-D1 for vernalization requirement has been suggested by Hoogendoorn (1985a). Law and Worland (1997) concluded that Vrn-B1 should be located on 5B at a homoeologous position to Vrn-A1 and Vrn-D1 by utilizing the substitution lines of CS with 5B from the Italian variety Mara. However, there were conflicting reports as to whether the Vrn gene on chromosome 5B corresponded to Vrn2 or Vrn4, which had been identified by segregation tests with the marker lines (Hoogendoorn, 1985b;Maystrenko, 1980).…”

Section: Discussionmentioning

confidence: 99%

Segregation analysis of heading traits in hexaploid wheat utilizing recombinant inbred lines

2003

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The purpose of this study was to analyze the genetic segregation of heading traits in wheat using recombinant inbred lines (RILs) of hexaploid wheat, derived from Triticum aestivum cv. Chinese Spring and T. spelta var. duhameliamum. The population was examined under controlled environmental conditions as well as in the field. This strategy differentiated the effect of three genetic factors (vernalization requirement, photoperiod sensitivity and narrow-sense earliness) and identified their interactions. Correlation analysis showed that photoperiod sensitivity and narrow-sense earliness are critical for heading time in the field. Single-marker analysis using 322 molecular markers segregating among RIL detected a total of 38 linked markers for each genetic factor and heading in the field. In interval analysis, two Vrn genes (Vrn-B1 and Vrn-D1) and Ppd-B1 were mapped on chromosomes 5B, 5D and 2B, respectively. It was noticed that Vrn-B1 on 5B from the spelt wheat conferred a strongspring habit equivalent to the homoeologous Vrn-A1. Quantitative trait locus analysis also showed that Ppd-B1 was not detected under the short-day condition without vernalization treatment, and that there were two types of genes for photoperiod sensitivity, dependent on and independent of vernalization treatment.

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Section: Discussionmentioning

confidence: 99%

Segregation analysis of heading traits in hexaploid wheat utilizing recombinant inbred lines

2003

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“…In fact, the genetic basis for many of the traits discussed above-salt tolerance (Hurkman, 1992;Taeb et al, 1992;Quesada et al, 2002), drought tolerance (Teulat et al, 1997;Haake et al, 2002;Hsieh et al, 2002), copper tolerance (Macnair, 1983;Fogel et al, 1988), and flowering-time differences (Law and Worland, 1997;McKay et al, 2003)-have already been investigated in wild or model plant species such as Arabidopsis thaliana and cereal crops or in yeast, and it will only be a matter of time before investigators apply this knowledge to their research species. Further, the genetic architecture of serpentinite tolerance is now being investigated by several groups (Bradshaw, Schemske, and colleagues;Bratteler et al, 2002) and will no doubt soon provide a much persuasive picture of the role of the edaphic factor in the diversification of plant lineages.…”

Section: Discussionmentioning

confidence: 99%

The Edaphic Factor in the Origin of Plant Species

Rajakaruna

2004

International Geology Review

179

135

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Although speciation has been a central focus in evolutionary biology for more than a century, there are very few case studies where we have a good understanding of the exact forces that may have acted in the diversification of a group of organisms. In order to examine such forces, botanists have often focused on closely related plants that are found under contrasting soil conditions. The study of such edaphically differentiated plants has provided valuable insight to the role of natural selection in evolution. This paper discusses several key studies that have appeared in the literature in the last half century emphasizing the role unusual soil conditions-such as those found on serpentinite outcrops, mine tailings, guano deposits, and salt flats-can play in the diversification of plant species. Many of these studies have not only shown adaptive differentiation in response to various edaphic features, but have also attempted to examine the link between adaptive traits and traits that are directly responsible for reproductive isolation between the divergent taxa. With the advent of novel genetic techniques and an increased understanding of the genetic architecture of various adaptive traits dealing with substrate tolerance, it will soon be possible to demonstrate the central role of the edaphic factor in plant evolution.

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“…VRN-H3 was tentatively assigned to chromosome 1H based on its loose linkage with the morphological marker BLP (24), whereas VRN-B4 was mapped on the short arm of wheat chromosome 7B (25)(26)(27)(28). We show here that the VRN-H3 gene actually is located on barley chromosome arm 7HS and is orthologous to the wheat vernalization gene VRN-B4, which is referred hereafter as VRN-B3.…”

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confidence: 90%