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2010 | 51 | 3 |

Tytuł artykułu

Mapping of sequence-specific markers and loci controlling preharvest sprouting and alpha-amylase activity in rye (Secale cereale L.) on the genetic map of an F2 (S120×S76) population

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
Location of the loci that control preharvest sprouting and alpha-amylase activity in rye was studied based on intercross S120×S76, consisting of 110 genotypes of F2 and F3 progenies. The genetic map currently consists of 141 loci distributed in 11 linkage groups, covering a distance of 506.4 cM, and was enriched during this study with 24 sequence-specific markers (7 SCARs, 7 SSRs, and 10 STSs). The extended map was applied for composite interval mapping of the loci controlling preharvest sprouting and a-amylase activity, revealing 3 significant QTLs for preharvest sprouting, located on chromosomes 3R, 5R and 6R (in 1999), and one QTL for a-amylase activity found on chromosome 2R (in 2000).

Wydawca

-

Rocznik

Tom

51

Numer

3

Opis fizyczny

p.283-287.fig.,ref.

Twórcy

autor
  • Department of Plant Genetics, Breeding and Biotechnology, West-Pomeranian University of Technology, Szczecin, Poland
  • Department of Plant Genetics, Breeding and Biotechnology, West-Pomeranian University of Technology, Szczecin, Poland
  • Department of Plant Genetics, Breeding and Biotechnology, West-Pomeranian University of Technology, Szczecin, Poland
autor
  • Department of Plant Genetics, Breeding and Biotechnology, West-Pomeranian University of Technology, Szczecin, Poland

Bibliografia

  • Gustafson JP, Ma X-F, Korzun V, Snape JW, 2009. A consensus map of rye integrating mapping data from five mapping populations. Theor Appl Genet 118: 793-800.
  • Gonzales C, Camacho MV, Benito C, 2002. Cliromosomal location of 46 new RAPD markers in rye (Secale cereale L.). Genetica 118: 205-211.
  • Devos KM, Atkinson MD, Chinoy CN, Francis HA, Harcourt RL, Koebner RL, et al. 1993. Chromosomal rearrangements in the rye genome re lathe to that of wheat. Theor Appl Genet 85: 673-680.
  • Hackauf B, Rudd S, van der Voort JR, Miedaner T, Wehling P, 2009. Comparative mapping of DNA sequences in rye (Secale cereale L.) in relation to the rice genome. Theor Appl Genet 118: 371-384.
  • Hackauf B, Wehling P, 2003. Development of microsatellite markers in rye: map construction. Plant Breed. Seed Sci. 48: 143-151.
  • Khlestkina EK, Than MHM, Pestsova EG, Röder MS, Malyshev SV, Korzun V, Börner A, 2004. Mapping of 99 new microsatellite-derived loci in rye (Secale cereale L.) including 39 expressed sequence tags. Theor Appl Genet 109: 725-732.
  • Mago R, Spielmayer W, Lawrence G, Lagudah E, Ellis J, Pryor A, 2002. Identification and mapping of molecular markers linked to rust resistance genes located on chromosome 1RS of rye using wheat-rye translocation lines. Theor Appl Genet 104: 1317-1324.
  • Masojć P, Banek-Tabor A, Milczarski P, Twardowska M, 2007. QTLs for resistance to pre harvest sprouting in rye (Secale cereale L.). J Appl Genet 48: 211-217.
  • Masojć P, Larsson-Raźnikiewicz M, 1991. Genetic variation of α-amylase levels among rye (Secale cereale L.) kernels, tested by gel diffusion technique. Swedish J Agrie Res 21: 141-145.
  • Masojć P, Lebiecka K, Milczarski P, Wiśniewska M, Owsianicki R, 2009. Three classes of loci controlling preharvest sprouting in rye (Secale cereale L.) discerned by means of bidirectional selective genotyping (BSG). Euphytica 170: 123-129.
  • Masojć P, Milczarski P, 2009. Relationship between QTLs for preharvest sprouting and alpha-amylase activity in rye grain. Mol Breeding 23: 75-84.
  • Matos M, Camacho MV, Perez-Flores V, Pernaute B, Pinto-Carnide O, Benito C, 2005. A new aluminum tolerance gene located on rye chromosome arm 7RS. Thcor Appl Genet 111: 360-369.
  • Melchinger AE, Utz HF, Schon CC, 1998. Quantitative trait locus (QTL) mapping using different testers and independent population samples in maize reveals low power of QTL detection and large bias in estimates of QTL effects. Genetics 149: 383-403.
  • Milczarski P, Banek-Tabor A, Lebiecka K, Stojałowski S, Myśków B, Masojć P, 2007. A new genetic map of rye based on RAPD, ISSR and STS markers and its alignment with the reference DS2xRXL10 map. J Appl Genet 48: 11-24.
  • Myśków B, 2009. Mapowanie arbitralnych markerów PCR w grupach sprzężeń żyta (Secale cereale L.) [Linkage mapping of arbitrary PCR markers in rye (Secale cereale L.)]. In: B. Naganowska, P. Kachlicki, P. Krajewski, red. Genetyka i genomika w doskonaleniu roślin uprawnych [Genetics and genomics in crop improvement] Poznań: Instytut Genetyki Roślin PAN: 37-44.
  • Myśków B, Masojć P, Banek-Tabor A, Szołkowski A, 2001. Genetic diversity of inbred rye lines evaluated by RAPD analysis. J Appl Genet 42: 1-14.
  • Stojałowski S, Jaciubek M, Masojć P, 2005. Rye SCAR markers for male fertility restoration in the P cytoplasm are also applicable to marker-assisted selection in the C cytoplasm. J Appl Genet 46: 371-373.
  • Stojałowski S, Myśków B, Milczarski P, Masojć P, 2009. A consensus map of chromosome 6R in ryc (Secale cereale L.) Cell Mol Biol Lett 14: 190-198.
  • Stracke S, Schilling AG, Förster J, Weiss C, Glass C, Miedaner T, Geiger HH, 2003. Development of PCR-based markers linked to dominant genes for male-fertility restoration in Pampa CMS of rye (Secale cereale L.). Theor Appl Genet 106: 1184-1190.
  • Válarik M, Linkiewicz AM, Dubkovsky J, 2006. A microlinearity study at the earliness per se gene Eps-Am 1 region reveals an ancient duplication that preceded the wheat-rice divergence. Theor Appl Genet 112: 945-957.
  • Van Ooijen JW, Voorrips RE, 2001. JoinMap® 3.0, Software for the calculation of genetic linkage maps. Plant. Res. Intern. Wageningen, the Netherlands.
  • Wang SC, Basten CJ, Zeng Z-B, 2006. Windows QTL Cartographer 2.5, Department of Statistics, North Carolina State University, Raleigh, NC.
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Typ dokumentu

Bibliografia

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