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Journal Article 1997

Autor: Agaba, Morris Kemp, Stephen J. Barendse, W. Teale, A.J.

Human chromosome (Chr) 18(HSA 18) contains approximately 85 million base pains of DNA. Thirty genes and pseudogenes have been mapped to HSA 18 by somatic cell genetics or in situ hybridization. Two bovine genes - Yamaguchi sacroma viral oncogene homology 1 (YESI) and desmocollin type 1 (DSC1) - h...

Enlace original: https://cgspace.cgiar.org/handle/10568/29207

Investigación en Agricultura
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Agaba, MorrisKemp, Stephen J.Barendse, W.Teale, A.J.[Comparative mapping in cattle of genes located on human chromosome 18]Comparative mapping in cattle of genes located on human chromosome 18
Book Chapter 1995

Autor: Ortiz, R.

The triploid nature of plantain and its pattern of inheritance should have represented a challenge and an incentive for geneticists. However, few genetic and cytological investigations have been done in Musa spp. Both banana and plantain have been ignored and neglected as material for basic genet...

Enlace original: https://cgspace.cgiar.org/handle/10568/100890

Investigación en Agricultura
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Ortiz, R.[Musa genetics]Musa genetics
Journal Article 1998

Autor: Crouch, H.K. Crouch, J.H. Jarret, Robert L. Cregan, P.B. Ortiz, R.

The triploid genome of plantain (Musa spp., AA group) has been considered intractable to genetic improvement because of the production of putatively homogeneous 2n (= 3.r) gametes. Plantain breeding schemes have been based on the hybridization of 2n megaspores from the triploid plantain and haplo...

Enlace original: https://cgspace.cgiar.org/handle/10568/100972

Investigación en Agricultura
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Crouch, H.K.Crouch, J.H.Jarret, Robert L.Cregan, P.B.Ortiz, R.[Segregation at microsatellite loci in haploid and diploid gametes of Musa]Segregation at microsatellite loci in haploid and diploid gametes of Musa
Poster 2017

Autor: Cenci, A. Sardos, J. Hueber, Y. Zorrilla-Fontanesi, J. Wesemael, J. van Swennen, R.L. Roux, N. Carpentier, S. Rouard, M.
Enlace original: https://cgspace.cgiar.org/handle/10568/89271

Investigación en Agricultura
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Cenci, A.Sardos, J.Hueber, Y.Zorrilla-Fontanesi, J.Wesemael, J. vanSwennen, R.L.Roux, N.Carpentier, S.Rouard, M.[A genomic view of the banana (Musa spp.) diversification: the case of triploid ABB genome group]A genomic view of the banana (Musa spp.) diversification: the case of triploid ABB genome group
Journal Article 1999

Autor: Nilsson, P.H. Kang'a, S. Rottengatter, K. Suedbeck, U. Iraqui, F. Mwakaya, J. Mwangi, D. Womack, J.E. Goldammer, T. Schwerin, M. Bradley, D. Agaba, Morris Sugimoto, K. Gelhaus, A. Horstmann, R. Teale, A.J. Kemp, Stephen J. Hanotte, Olivier H.

A preliminary search for QTLs in a cattle F2 resource populations segregating for trypanotolerance has revealed three large candidate chromosomal regions (Bta02, Bta05, Bta07). In order to narrow down the position of the trypanotolerant QTLs, we are building comparative chromosomal maps between c...

Enlace original: https://cgspace.cgiar.org/handle/10568/28363

Investigación en Agricultura
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Nilsson, P.H.Kang'a, S.Rottengatter, K.Suedbeck, U.Iraqui, F.Mwakaya, J.Mwangi, D.Womack, J.E.Goldammer, T.Schwerin, M.Bradley, D.Agaba, MorrisSugimoto, K.Gelhaus, A.Horstmann, R.Teale, A.J.Kemp, Stephen J.Hanotte, Olivier H.[Radiation hybrid maps of candidate trypanotolerance regions in cattle]Radiation hybrid maps of candidate trypanotolerance regions in cattle
Journal Article 1994

Autor: Hahn, S. Bai, K. Chukwuma, E. Asiedu, Robert Dixon, A. Ng, S.

Spontaneous sexual and asexual polyploids occur in cassava. The cassava polyploid breeding strategies using these polyploidization processes are discussed. Sexual polyploidization has advantages over asexual polyploidization in terms of viability of gametes, heterosis, vigor, plant architecture, ...

Enlace original: https://cgspace.cgiar.org/handle/10568/97367

Investigación en Agricultura
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Hahn, S.Bai, K.Chukwuma, E.Asiedu, RobertDixon, A.Ng, S.[Polyploid breeding of cassava]Polyploid breeding of cassava
Journal Article 2006

Autor: Oselebe, H.O. Tenkouano, A. Pillay, M.

Plantain and banana (Musa spp) breeding involves crossing 3x (triploid) landraces to 2x (diploid) accessions as female and male parents, respectively, selecting 4x (tetraploid) and 2x primary hybrids from the 3x - 2x progenies, and crossing 4x - 2x hybrids to produce secondary 3x hybrids. In thes...

Enlace original: https://cgspace.cgiar.org/handle/10568/91356

Investigación en Agricultura
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Oselebe, H.O.Tenkouano, A.Pillay, M.[Ploidy variation of Musa hybrids from crosses]Ploidy variation of Musa hybrids from crosses
Book Chapter 1996

Autor: Valle, Cacilda Borges do Savidan, Yves H.

Two essentials for breeding new cultivars of Brachiaria are germplasm diversity and information on basic biological aspects of major species. This paper reviews current knowledge on the cytological behavior, mode of reproduction and its inheritance, and crossing compatibility of different species...

Enlace original: https://cgspace.cgiar.org/handle/10568/82032

Investigación en Agricultura
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Valle, Cacilda Borges doSavidan, Yves H.[Genetics, cytogenetics, and reproductive biology of Brachiaria]Genetics, cytogenetics, and reproductive biology of Brachiaria
Journal Article 2019

Autor: Šimoníková, D. Němečková, A. Karafiátová, M. Uwimana, B. Swennen, R. Doležel, Jaroslav Hřibová, E.

Oligo painting FISH was established to identify all chromosomes in banana (Musa spp.) and to anchor pseudomolecules of reference genome sequence of Musa acuminata spp. malaccensis “DH Pahang” to individual chromosomes in situ. A total of 19 chromosome/chromosome-arm specific oligo painting probes...

Enlace original: https://cgspace.cgiar.org/handle/10568/106239

Investigación en Agricultura
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Šimoníková, D.Němečková, A.Karafiátová, M.Uwimana, B.Swennen, R.Doležel, JaroslavHřibová, E.[Chromosome painting facilitates anchoring reference genome sequence to chromosomes In Situ and integrated karyotyping in banana (Musa Spp.)]Chromosome painting facilitates anchoring reference genome sequence to chromosomes In Situ and integrated karyotyping in banana (Musa Spp.)

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