Results 271 to 280 of about 452,874 (322)
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Tubercle, 1989
Two substrains of BCG, the Pasteur and Japanese, were successfully transformed with E. coli-mycobacteria shuttle plasmids, constructed from the E. coli plasmid, pIJ666 and the M. fortuitum plasmid, pAL5000. Individual plasmids (pYUB13, pYUB14) were obtained that contain selectable antibiotic resistance markers for kanamycin and chloramphenicol ...
Barry R. Bloom +2 more
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Two substrains of BCG, the Pasteur and Japanese, were successfully transformed with E. coli-mycobacteria shuttle plasmids, constructed from the E. coli plasmid, pIJ666 and the M. fortuitum plasmid, pAL5000. Individual plasmids (pYUB13, pYUB14) were obtained that contain selectable antibiotic resistance markers for kanamycin and chloramphenicol ...
Barry R. Bloom +2 more
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Genetic transformation of mycobacteria [PDF]
Trends in Microbiology, 1993 Recent advances in methods for introducing DNA into both fast- and slow-growing species of mycobacteria have stimulated the construction of a variety of cloning vectors and the development of a versatile genetic system. These tools will facilitate studies of mycobacterial pathogenicity, antibiotic action and drug resistance, and lead to more effective ...
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Genetic Transformation of Switchgrass
2009Switchgrass (Panicum virgatum L.) is a highly productive warm-season C4 species that is being developed into a dedicated biofuel crop. This chapter describes a protocol that allows the generation of transgenic switchgrass plants by Agrobacterium tumefaciens-mediated transformation. Embryogenic calluses induced from caryopses or inflorescences were used
Zeng-Yu Wang, Yajun Xi, Yaxin Ge
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Genetics of drug transformation
Clinical Biochemistry, 1986Biotransformations of drugs are controlled or strongly affected by genetic factors. During the past few years several genetic deficiencies of drug-metabolizing reactions catalyzed by members of the family of cytochrome P-450 were observed. Choice of the appropriate drug to study and attention to urinary metabolites have been the essential ingredients ...
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Genetic Transformation in Citrus [PDF]
, 2000 More Citrus is produced on a world-wide basis than any other fruit crop. The genus includes a number of species grown for fruit and/or juice products, including sweet oranges (C. sinensis [L.] Osbeck), grapefruit (C. paradisi Macf.), mandarins (C. reticulata Blanco), lemons (C. limon [L.] Burm. f.), and limes (C.
Fatma Kaplan +3 more
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Genetic Transformation of Rice
Critical Reviews in Plant Sciences, 1994Abstract Rice was the first major monocot crop species to be transformed and regenerated. Initially, rice transformation was limited to japonica cultivars. Subsequently, a number of indica and javanica cultivars have also been transformed and regenerated into fertile transgenic plants.
Nicola M. Ayres, William D. Park
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Genetic Transformation of Pineapple
2018Transgenic pineapple plants have been produced for the purpose of improving various economically important traits. The efforts have focused on traits such as natural flowering control, herbicide tolerance for weed control, disease and nematode control, and fruit quality traits.
Ming-Li Wang, Robert E. Paull
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Genetic Transformation in Anthurium
1994Anthurium is the largest and most complex genus in the family Araceae. It consists of about 1000 species (Croat 1992). The distribution of this genus extends from northern Mexico and the Greater Antilles to southern Brazil and northern Argentina, and Paraguay (Croat 1983, 1986). The chromosome number of most investigated species is 2n = 30 (Sheffer and
Adelheid R. Kuehnle, Fure-Chyi Chen
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Genetic Transformation of Plants
20031 Exclusive Rights in Life: Biotechnology, Genetic Manipulation, and Intellectual Property Rights.- 2 Agrobacterium rhizogenes-Mediated Transformation of Plants.- 3 Transformation of Petunia hybrida by the Agrobacterium Suspension Drop Method.- 4 Onion, Leek and Garlic Transformation by Co-cultivation with Agrobacterium.- 5 Electroporation ...
John F. Jackson, H. F. Linskens
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2021
Lingzhi (Ganoderma lucidum) contains various bioactive constituents, such as polysaccharides and triterpenoids. The development of genetic transformation systems of Lingzhi is necessary for the characterization of the function of the target genes and the efficient production of bioactive compounds by genetically engineered strains.
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Lingzhi (Ganoderma lucidum) contains various bioactive constituents, such as polysaccharides and triterpenoids. The development of genetic transformation systems of Lingzhi is necessary for the characterization of the function of the target genes and the efficient production of bioactive compounds by genetically engineered strains.
openaire +2 more sources