Browsing Gwyddorau Biolegol, Amgylcheddol a Gwledig / Biological, Environmental & Rural Sciences by Title

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Browsing Gwyddorau Biolegol, Amgylcheddol a Gwledig / Biological, Environmental & Rural Sciences by Title

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  • Raina, Soom Nath; Ahuja, P. S.; Sharma, Ricky A.; Das, S. C.; Bhardwaj, P.; Negi, R.; Sharma, V.; Singh, S. S.; Sud, R. K.; Kalia, R. K.; Pandey, V.; Banik, J.; Razdan, V.; Sehgal, D.; Dar, Tanvir H.; Kumar, A.; Bali, S.; Bhat, V.; Sharma, S.; Prasanna, B. M.; Goel, S.; Negi, M. S.; Vijayan, P.; Tripathi, S. B.; Bera, B.; Hazarika, M.; Mandal, A. K. A.; Kumar, R. R.; Vijayan, D.; Ramkumar, S.; Chowdhury, B. R.; Mandi, S. S. (2011-12-23)
    The most important evolutionary event in the success of commercial tea cultivation outside China in ca. 30 countries came about by the origin of India hybrid tea in India, derived from the extensive spontaneous hybridization ...
  • Shaw, P. W.; Arkhipkin, A. I.; Al-Khairulla, H. (2004-11)
    The environmental and/or life history factors affecting genetic exchange in marine species with potential for high dispersal are of great interest, not only from an evolutionary standpoint but also with regard to effective ...
  • Gupta, M. G.; Timms, Emma J.; Bhat, V.; Bailey, K.; Bettany, Andy J. E.; Morris, Phillip; Dalton, Sue J. (2003-06)
    Eleven Dichanthium annulatum (Forssk) plants were regenerated from embryogenic callus co-transformed with two plasmids encoding either the hygromycin phosphotransferase gene ( hph) or the ß-glucuronidase(GUS) gene ( uidA). ...
  • Dalton, S. J.; Gallagher, J. A.; Winters, A. L.; Langdon, T.; Timms-Taravella, E.; Donnison, I. S. (2011-05)
  • Dalton, S. J.; Winters, A. L.; Langdon, T.; Timms-Taravella, E.; Donnison, I. S. (2011)
  • Rincones, Johana; Mazotti, Gabriel D.; Griffith, Gareth W.; Pomela, Aalan; Figueira, Antonio; Leal Jr, Gildemberg A.; Queiroz, Marisa V.; Pereira, Jorge F.; Azevedo, Ricardo A.; Pereira, Goncalo A.; Meinhardt, Lyndel W. (2006-07)
    Crinipellis perniciosa has been classified into at least four known biotypes associated with members of unrelated plant families. In this study, genetic variability is shown for 27 C (Cacao), 4 S (Solanum), and 7 L biotype ...
  • Sanderson, Ruth; Thomas, Ian D.; Skøt, Kirsten P.; Skøt, Leif; Gallagher, Joe A.; Heywood, Susan; Armstead, Ian P.; Humphreys, Mervyn O. (2004)
  • Humphreys, Mervyn O.; Heszky, L. E.; Lagler, R.; Horvath, L.; Bittsanszky, A.; Szabo, Z.; Gyulai, G. (2005)
  • Leggett, J. Michael; Katsiotis, A.; Loukas, M.; Tsakas, S.; Drossou, A. (2004-03-10)
    Species and genome relationships among 11 diploid (A and C genomes), five tetraploid (AB and AC genomes) and two hexaploid (ACD genome) Avena taxa were investigated using amplified fragment length polymorphisms (AFLPs) and ...
  • Bocianowski, J.; Joks, W.; Zwierzykowska, E.; Jones, R. Neil; Kosmala, A.; Zwierzykowski, Z. (2006-06-14)
    In the allotetraploid, Festuca pratensis Huds. (2n = 4x = 28) £ Lolium perenne L. (2n = 4x = 28) the balance of chromatin, as determined by GISH, changes over successive generations of open pollination in favour of L. ...
  • Jones, R. Neil; Pasakinskiene, Izolda S. (2005)
    The genomes of grasses and cereals include a diverse and large collection of selfish genetic elements, many of which are fossil relics of ancient origin. Some of these elements are active and, because of their selfish ...
  • Fitzpatrick, David A.; Creevey, Christopher J.; McInerney, James O. (2006-01)
    Placement of the mitochondrial branch on the tree of life has been problematic. Sparse sampling, the uncertainty of how lateral gene transfer might overwrite phylogenetic signals, and the uncertainty of phylogenetic inference ...
  • Slavov, Gancho Trifonu; Difazio, Stephen P.; Martin, Joel; Schackwitz, Wendy; Muchero, Wellington; Rodgers-Melnick, Eli; Lipphardt, Mindie F.; Pennacchio, Christa P.; Hellsten, Uffe; Pennacchio, Len A.; Gunter, Lee E.; Ranjan, Priya; Vining, Kelly; Pomraning, Kyle R.; Wilhelm, Larry J.; Pellegrini, Matteo; Mockler, Todd C.; Freitag, Michael; Geraldes, Armando; El-Kassaby, Yousry A.; Mansfield, Shawn D.; Cronk, Quentin C. B.; Douglas, Carl J.; Strauss, Steven H.; Rokhsar, Dan; Tuskan, Gerald A. (2012-11)
    Plant population genomics informs evolutionary biology, breeding, conservation and bioenergy feedstock development. For example, the detection of reliable phenotype–genotype associations and molecular signatures of selection ...
  • Jones, R. N.; Thomas, Howard (2009)
  • Lawton, Scott P.; Hirai, Hirohisa; Ironside, J. E.; Johnston, David A.; Rollinson, David (2011-07-07)
    Blood flukes within the genus Schistosoma still remain a major cause of disease in the tropics and subtropics and the study of their evolution has been an area of major debate and research. With the advent of modern molecular ...
  • Whitworth, David E. (2008-11-01)
    The availability of bacterial genome sequences has ushered in an era of post-genomic research – accelerating and often enabling molecular genetic analyses. For bacteriologists focussing on an individual bacterium, comparing ...
  • Rudder, Steven; Doohan, Fiona; Creevey, Christopher J; Wendt, Toni; Mullins, Ewen (2014-04-07)
    Recently it has been shown that Ensifer adhaerens can be used as a plant transformation technology, transferring genes into several plant genomes when equipped with a Ti plasmid. For this study, we have sequenced the genome ...
  • Elsik, Christine G.; Tellam, Ross L.; Worley, Kim C.; Gibbs, R. A.; Muzny, D. M.; Weinstock, G. M.; Adelson, D. L.; Eichler, E. E.; Elnitski, L.; Guigo, R.; Hamernik, D. L.; Kappes, S. M.; Lewin, H. A.; Lynn, D. J.; Nicholas, F. W.; Reymond, A.; Rijnkels, M.; Skow, L. C.; Zdobnov, E. M.; Schook, L.; Womack, J.; Alioto, T.; Antonarakis, S. E.; Astashyn, A.; Chapple, C. E.; Chen, H.-C.; Chrast, J.; Camara, F.; Ermolaeva, O.; Henrichsen, C. N.; Hlavina, W.; Kapustin, Y.; Kiryutin, B.; Kitts, P.; Kokocinski, F.; Landrum, M.; Maglott, D.; Pruitt, K.; Sapojnikov, V.; Searle, S. M.; Solovyev, V.; Souvorov, A.; Ucla, C.; Wyss, C.; Anzola, J. M.; Gerlach, D.; Elhaik, E.; Graur, D.; Reese, J. T.; Edgar, R. C.; Mcewan, J. C.; Payne, G. M.; Raison, J. M.; Junier, T.; Kriventseva, E. V.; Eyras, E.; Plass, M.; Donthu, R.; Larkin, D. M.; Reecy, J.; Yang, M. Q.; Chen, L.; Cheng, Z.; Chitko-mckown, C. G.; Liu, G. E.; Matukumalli, L. K.; Song, J.; Zhu, B.; Bradley, D. G.; Brinkman, F. S.l.; Lau, L. P.l.; Whiteside, M. D.; Walker, A.; Wheeler, T. T.; Casey, T.; German, J. B.; Lemay, D. G.; Maqbool, N. J.; Molenaar, A. J.; Seo, S.; Stothard, P.; Baldwin, C. L.; Baxter, R.; Brinkmeyer-Langford, C. L.; Brown, W. C.; Childers, C. P.; Connelley, T.; Ellis, S. A.; Fritz, K.; Glass, E. J.; Herzig, C. T. A.; Iivanainen, A.; Lahmers, K. K.; Bennett, A. K.; Dickens, C. M.; Gilbert, J. G. R.; Hagen, D. E.; Salih, H.; Aerts, J.; Caetano, A. R.; Dalrymple, B.; Garcia, J. F.; Gill, C. A.; Hiendleder, S. G.; Memili, E.; Spurlock, D.; Williams, J. L.; Alexander, L.; Brownstein, M. J.; Guan, L.; Holt, R. A.; Jones, S. J. M.; Marra, M. A.; Moore, R.; Moore, S. S.; Roberts, A.; Taniguchi, M.; Waterman, R. C.; Chacko, J.; Chandrabose, M. M.; Cree, A.; Dao, M. D.; Dinh, H. H.; Gabisi, R. A.; Hines, S.; Hume, J.; Jhangiani, S. N.; Joshi, V.; Kovar, C. L.; Lewis, L. R.; Liu, Y.-S.; Lopez, J.; Morgan, M. B.; Nguyen, N. B.; Okwuonu, G. O.; Ruiz, S. J.; Santibanez, J.; Wright, R. A.; Buhay, C.; Ding, Y.; Dugan-Rocha, S.; Herdandez, J.; Holder, M.; Sabo, A.; Egan, A.; Goodell, J.; Wilczek-Boney, K.; Fowler, G. R.; Hitchens, M. E.; Lozado, R. J.; Moen, C.; Steffen, D.; Warren, J. T.; Zhang, J.; Chiu, R.; Schein, J. E.; Durbin, K. J.; Havlak, P.; Jiang, H.; Liu, Y.; Qin, X.; Ren, Y.; Shen, Y.; Song, H.; Bell, S. N.; Davis, C.; Johnson, A. J.; Lee, S.; Nazareth, L. V.; Patel, B. M.; Pu, L.-l.; Vattathil, S.; Williams, R. L.; Curry, S.; Hamilton, C.; Sodergren, E.; Wheeler, D. A.; Barris, W.; Bennett, G. L.; Eggen, A.; Green, R. D.; Harhay, G. P.; Hobbs, M.; Jann, O.; Keele, J. W.; Kent, M. P.; Lien, S.; Mckay, S. D.; Mcwilliam, S.; Ratnakumar, A.; Schnabel, R. D.; Smith, T.; Snelling, W. M.; Sonstegard, T. S.; Stone, R. T.; Sugimoto, Y.; Takasuga, A.; Taylor, J. F.; Van Tassell, C. P.; Macneil, M. D.; Abatepaulo, A. R.r.; Abbey, C. A.; Ahola, V.; Almeida, I. G.; Amadio, A. F.; Anatriello, E.; Bahadue, S. M.; Biase, F. H.; Boldt, C. R.; Carroll, J. A.; Carvalho, W. A.; Cervelatti, E. P.; Chacko, E.; Chapin, J. E.; Cheng, Y.; Choi, J.; Colley, A. J.; De Campos, T. A.; De Donato, M.; Santos, I. K. F. D. M.; De Oliveira, C. J. F.; Deobald, H.; Devinoy, E.; Donohue, K. E.; Dovc, P.; Eberlein, A.; Fitzsimmons, C. J.; Franzin, A. M.; Garcia, G. R.; Genini, S.; Gladney, C. J.; Grant, J. R.; Greaser, M. L.; Green, J. A.; Hadsell, D. L.; Hakimov, H. A.; Halgren, R.; Harrow, J. L.; Hart, E. A.; Hastings, N.; Hernandez, M.; Hu, Z.-l.; Ingham, A.; Iso-Touru, T.; Jamis, C.; Jensen, K.; Kapetis, D.; Kerr, T.; Khalil, S. S.; Khatib, H.; Kolbehdari, D.; Kumar, C. G.; Kumar, D.; Leach, R.; Lee, J. C-M; Li, C.; Logan, K. M.; Malinverni, R.; Marques, E.; Martin, W. F.; Martins, N. F.; Maruyama, S. R.; Mazza, R.; Mclean, K. L.; Medrano, J. F.; Moreno, B. T.; More, D. D.; Muntean, C. T.; Nandakumar, H. P.; Nogueira, M. F. G.; Olsaker, I.; Pant, S. D.; Panzitta, F.; Pastor, R. C. P.; Poli, M. A.; Poslusny, N.; Rachagani, S.; Ranganathan, S.; Razpet, A.; Riggs, P. K.; Rincon, G.; Rodriguez-Osorio, N.; Rodriguez-Zas, S. L.; Romero, N. E.; Rosenwald, A.; Sando, L.; Schmutz, S. M.; Shen, L.; Sherman, L.; Southey, B. R.; Lutzow, Y. S.; Sweedler, J. V.; Tammen, I.; Telugu, B. P. V.l.; Urbanski, J. M.; Utsunomiya, Y. T.; Verschoor, C. P.; Waardenberg, A. J.; Wang, Z.; Ward, R.; Weikard, R.; Welsh, T. H.; White, S. N.; Wilming, L. G.; Wunderlich, K. R.; Yang, J.; Zhao, F.-Q. (2009-04-24)
    To understand the biology and evolution of ruminants, the cattle genome was sequenced to about sevenfold coverage. The cattle genome contains a minimum of 22,000 genes, with a core set of 14,345 orthologs shared among seven ...
  • Young, M.; Artsatbanov, Vladislav; Beller, Harry R.; Chandra, Govind; Chater, Keith F.; Dover, Lynn G.; Goh, Ee-Been; Kahan, Tamar; Kaprelyants, Arseny S.; Kyrpides, Nikos; Lapidus, Alla; Lowry, Stephen R.; Lykidis, Athanasios; Mahillon, Jacques; Markowitz, Victor; Mavromatis, Konstantinos; Mukamolova, Galina V.; Oren, Aharon; Rokem, J. Stefan; Smith, M. C. M.; Young, D. I.; Greenblatt, Charles L. (2010-02-01)
    Micrococcus luteus (NCTC2665, 'Fleming strain') has one of the smallest genomes of free-living actinobacteria sequenced to date, comprising a single circular chromosome of 2,501,097 bp (G+C content, 73%) predicted to encode ...
  • Davey, Hazel M.; Cross, Emma J. M.; Davey, Christopher L.; Gkargkas, Konstantinos; Delneri, Daniela; Hoyle, David C.; Oliver, Stephen G.; Kell, Douglas B.; Griffith, Gareth W. (2012-05-01)
    Although typically cosseted in the laboratory with constant temperatures and plentiful nutrients, microbes are frequently exposed to much more stressful conditions in their natural environments where survival and competitive ...

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