Molecular cytogenetic characterization of wheat-Thinopyrum ponticum translocations bearing blue-grained gene(s) induced by r-ray

Zheng, Qi; Bin, Li; Zhang, Xueyong; Mu, Shicheng; Zhou, Han-Ping; Li, Zhensheng

doi:10.1007/s10681-006-9176-6

Cited by 20 publications

(16 citation statements)

References 18 publications

(25 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The characteristic pattern of the 2D and 4D chromosomes of wheat, with centromeric signals (Brasileiro-Vidal et al 2003;Molnár et al 2009;Mukai et al 1993;Rayburn and Gill 1986;Schneider et al 2003;Sepsi et al 2008;Wang et al 2005;Zheng et al 2006) allowed us to detect the presence of these two pairs of chromosomes in trigopiro SH16 INTA.…”

Section: Discussionmentioning

confidence: 99%

Chromosome and genome composition of a Triticum × Thinopyrum hybrid by classical and molecular cytogenetic techniques

Fradkin

Ferrari

Ferreira

et al. 2011

Genet Resour Crop Evol

View full text Add to dashboard Cite

Triticum-Thinopyrum amphiploids arose from the need to obtain forage grasses highly resistant to pest, drought, soil salinity and frost and they can be used as efficient bridges to transfer desired genes from wheatgrass species to wheat. One of them is trigopiro SH16 INTA, it was introduced in Argentina in 1947 but its genomic composition was unknown. The aim of this work was to determine the chromosome number and genomic and chromosome composition of trigopiro SH16 INTA in order to use it in breeding programs. The simultaneous use of the in situ hybridization technique with different probes (genomic DNA of Th. ponticum (Podp.) Barkworth et D.R. Dewey, pSc119.2 and pAs1) allowed us to conclude that the chromosome number of trigopiro SH16 is 2n = 42 and the genome composition would be: 14 chromosomes of the B genome, the 2D and 4D chromosome pairs of wheat, 14 chromosomes of the J genome of Thinopyrum and the remaining chromosomes probably belong to the A genome of wheat.

show abstract

Section: Discussionmentioning

confidence: 99%

Chromosome and genome composition of a Triticum × Thinopyrum hybrid by classical and molecular cytogenetic techniques

Fradkin

Ferrari

Ferreira

et al. 2011

Genet Resour Crop Evol

View full text Add to dashboard Cite

show abstract

“…The gene for blue aleurone was transferred from the tall wheatgrass Agropyron elongatum to bread wheat (Triticum aestivum L.) (Zeller et al 1991;Morrison et al 2004). Similarly, translocation lines of the tall wheatgrass Thinopyrum ponticum with the blue aleurone gene(s) have also been characterised (Zheng et al 2006).…”

Section: Anthocyanin Pigment: Composition and Distribution Along The mentioning

confidence: 99%

The colours of durum wheat: a review

et al. 2014

View full text Add to dashboard Cite

Abstract. Pigments are essential to the life of all living organisms. Animals and plants have been the subjects of basic and applied research with the aim of determining the basis of the accumulation and physiological roles of pigments. In crop species, the edible organs show large variations in colour. In durum wheat grain, which is a staple food for humans, the colour is mainly due to two natural classes of pigment: carotenoids and anthocyanins. The carotenoids provide the yellow pigmentation of the durum wheat endosperm, and consequently of the semolina, which has important implications for the marketing of end products based on durum wheat. Anthocyanins accumulate in the aleurone or pericarp of durum wheat and provide the blue, purple and red colours of the grain. Both the carotenoids and the anthocyanins are known to provide benefits for human health, in terms of decreased risks of certain diseases. Therefore, accumulation of these pigments in the grain represents an important trait in breeding programs aimed at improving the nutritional value of durum wheat grain and its end products. This review focuses on the biochemical and genetic bases of pigment accumulation in durum wheat grain, and on the breeding strategies aimed at modifying grain colour.

show abstract

“…In situ hybridization with genomic DNA (GISH) has been previously used to determine the genome composition of many interspecific hybrids, as well as to detect the presence of introgressions and translocations (Ferrari et al, 2005;Wang et al, 2005;Zheng et al, 2006;Chen et al, 1998;Qi et al, 2010).…”

Section: Resultsmentioning

confidence: 99%

Caracterización del genoma de un Triticum x Thinopyrum (Poaceae) sintético amfiploide utilizando hibridación in situ.

Fradkin¹,

Greizerstein²,

Ferrari

et al. 2014

Bol. Soc. Argent. Bot.

View full text Add to dashboard Cite

Caracterización del genoma de un Triticum x Thinopyrum (Poaceae) sintético amfiploide utilizando hibridación in situ. Los “Trigopiros” derivan de cruzamientos entre diferentes especies deTriticum y Thinopyrum. El objetivo es obtener cereales con características similares al trigo, perennes,resistentes a enfermedades y a la salinidad de los suelos. Además estos híbridos sintéticos son útilespara transferir al trigo atributos agronómicos de Thinopyrum. “Trigopiro” Don Noé INTA, que se cultiva actualmente en Argentina, presenta rasgos agronómicos valiosos, así como un alto contenido deproteínas seminales. En el presente trabajo se confirmó que el número de cromosomas de “Trigopiro”Don Noé es 2n = 56. Técnicas de hibridación in situ (FISH-GISH) permitieron postular su composicióngenómica desconocida hasta el momento. Este híbrido artificial posee 14 cromosomas del genoma J deThinopyrum y 2 pares de cromosomas con posibles translocaciones entre Triticum y Thinopyrum. El restode los cromosomas pertenecen a los genomas A, B y D de Triticum.

show abstract

Molecular cytogenetic characterization of wheat-Thinopyrum ponticum translocations bearing blue-grained gene(s) induced by r-ray

Cited by 20 publications

References 18 publications

Chromosome and genome composition of a Triticum × Thinopyrum hybrid by classical and molecular cytogenetic techniques

Chromosome and genome composition of a Triticum × Thinopyrum hybrid by classical and molecular cytogenetic techniques

The colours of durum wheat: a review

Caracterización del genoma de un Triticum x Thinopyrum (Poaceae) sintético amfiploide utilizando hibridación in situ.

Contact Info

Product

Resources

About