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http://dx.doi.org/10.7732/kjpr.2022.35.5.659

Effect of Rye B chromosome on Meiotic Chromosome Association in Wheat (Triticum aestivum L.) Genetic Background  

Cho, Seong-Woo (Department of Smart Agro-Industry, Gyeongsang National University)
Publication Information
Korean Journal of Plant Resources / v.35, no.5, 2022 , pp. 659-666 More about this Journal
Abstract
The effect of rye B chromosome (rye B) on chromosome association was investigated in meiosis of wheat addition line. The wheat addition line was with one Leymus mollis chromosome and one L. racemosus chromosome which are under homoeologous relationship. Chromosome behavior of the two Leymus chromosomes in wheat genetic background was revealed by genomic in situ hybridization. In the first metaphase, most of the two Leymus chromosomes showed univalent in the wheat addition line without rye B (98.1 ± 0.5%). On the other hand, the wheat addition line with rye B showed higher frequency of bivalent (10.3 ± 0.2%) than wheat addition line without rye B (1.9 ± 0.5%). The wheat addition line without rye B showed abnormal bivalents with abnormal structure while the wheat addition line with rye B showed normal bivalent in low frequency. By rye B, some bivalent was composed of wheat and L. racemosus, and some trivalent was composed of wheat bivalents with L. mollis chromosome. Also, some wheat bivalents showed hyper-crossover, so those wheat bivalents showed abnormal structure compared to other wheat bivalents with normal structure such as ring, rod, and pan.
Keywords
Chromosome association; Genomic in situ hybridization; Rye B; Wheat;
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1 Alvarez, M.T., A. Fominaya and M.P.D.L. Vega. 1991. A possible effect of B-chromosomes on metaphase I homologous chromosome association in rye. Heredity 67:123-128.   DOI
2 Chen, P.D., H. Tsujimoto and B.S. Gill. 1994. Transfer of PhI genes promoting homoeologous pairing from Triticum speltoides to common wheat. 2000. Theor. Appl. Genet. 88:97-101.   DOI
3 Dvorak, J., K.R. Deal and M.C. Luo. 2006. Discovery and mapping of wheat Ph1 Suppressors. Genetics 174:17-27.   DOI
4 Jo, Y.-K., F. Ramzan, B.-G. Son, H.-Y. Kim and K.-B. Lim. 2018. Crossing of Asiatic hybrids for breeding of new lily cultivars. Korean J. Breed. Sci. 50(1):1-12.   DOI
5 Jordan, P. 2006. Initiation of homologous chromosome pairing during meiosis. Biochem. Soc. Tras. 34:545-549.   DOI
6 Cai, X. and S.S. Xu. 2007. Meiosis-driven genome variation in plants. Curr. Genom. 8:151-161.   DOI
7 Camacho, J.P.M., T.F. Sharbel and L.W. Beukeboom. 2000. B-chromosome evolution. The Royal Soc. 355:163-178.
8 Cho, S.-W., Y. Moritama, T. Ishii, M. Kishii, H. Tanaka, A.E. Eltayeb and H. Tsujimoto. 2011. Homology of two alien chromosomes during meiosis in wheat. Chromosome Sci. 14:45-52.
9 Cunado, N., M.C. Cermeno and J. Orellana. 1986. Interactions between wheat, rye and Aegilops ventricose chromosomes on homologous and homoeologous pairing. Heredity 56: 219-226.   DOI
10 Edet, O.U., Y.S.A. Gorafi, S.-W. Cho, M. Kishii and H. Tsujimoto. 2018. Novel molecular marker-assisted strategy for production of wheat-Leymus mollis chromosome addition lines. Sci. Rep. 8:16117.   DOI
11 Estepa, M.A., M.C. Cuadrado and C. Romero. 1993. Odd-even effect of rye B-chromosomes on homoeologous pairing in wheat-rye hybrids. Caryologia 46:17-23.   DOI
12 Jones, R.N. 1995. B chromosome in plants. New Phytol. 131: 411-434.   DOI
13 Jones, R.N. and H. Rees. 1967. Genotypic control of chromosome behaviour in rye XI. The influence of B chromosomes on meiosis. Heredity 22:333-347.   DOI
14 Li, H., B.S. Gill, X. Wang and P. Chen. 2011. A Tal-PhI wheat genetic stock facilitates efficient alien introgression. Genet. Resour. Crop Evol. 58:667-678.   DOI
15 Kishii, M., R.R.C. Wang and H. Tsujimoto. 2003. Characteristics and behavior of the chromosomes of Leymus mollis and L. racemosus (Triticeae, Poaceae) during mitosis and meiosis. Chromosome Res. 11:741-748.   DOI
16 Kishii, M., T. Yamada, T. Sasakuma and H. Tsujimoto. 2004. Production of wheat-Leymus racemosus chromosome addition lines. Theor. Appl. Genet. 109:255-260.   DOI
17 Kousaka, R. and T.R. Endo. 2012. Effect of a rye B chromosome and its segments on homoeologous pairing in hybrids between common wheat and Aegilops variabilis. Genes Genet. Syst. 87:1-7.   DOI
18 Ma, K.-B., K.-S. Cho, H.-W. Jung, H.-J. Seo and S.-S Kang. 2018. Induction of A chromosome-doubled persimmon (Diospyros kaki Thunb.) by in virto colchicine treatment. Korean J. Plant Res. 31(5):515-521.
19 Martinez-Perez, E. and P. Shaw, G. Moore. 2001. The Ph1 locus is needed to ensure specific somatic and meiotic centromere association. Nature 411:204-207.   DOI
20 Mukai, Y. 1996. In situ hybridization. In Fukui, K. and S. Nakayama (eds.), Plant Chromosomes: Laboratory Methods. CRC Press, BR (USA). pp. 155-170.
21 Oh, S.A., K.H. Min, Y.S. Choi, S.B. Park, Y.C. Kim and S.M. Cho. 2015. Development of tetraploid watermelon using chromosome doubling reagent treatments. Korean J. Plant Res. 28(5):656-664.   DOI
22 Riley, R. and V. Chapman. 1958. Genetic control of the cytologically diploid behaviour of hexaploid wheat. Nature 182: 713-715.   DOI
23 Remerro, C. and J.R. Lacadena. 1980. Interaction between rye B-chromosome and wheat genetic systems controlling homoeologous pairing. Chromosoma 80:33-48.   DOI
24 Rey, M.D., A.C. Martin, J. Higgins, D. Swarbreck, C. Uauy, P. Shaw and G. Moore. 2017. Exploiting the ZIP4 homologue within the wheat Ph1 locus has identified two lines exhibiting homoeologous crossover in wheat-wild relative hybrids. Mol. Breed. 37:95.   DOI
25 Rey, M.D., M.C. Calderon and P. Prieto. 2015. The use of the ph1b mutant to induce recombination between the chromosomes of wheat and barley. Front. in Plant Sci. 6:160.   DOI
26 Taylor, I.B. and G.M. Evans. 1976. The effect of B chromosome on homoeologous pairing in species hybrids III. Intraspecific variation. Chromosoma 57:25-32.   DOI
27 Roberts, M.A., S.M. Reader, C. Dalgliesh, T.E. Miller, T.N. Foote, L.J. Fish, J.W. Snape and G. Moore. 1999. Induction and characterization of Ph1 wheat mutants. Genetics 153: 1909-1918.   DOI