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1.

Evidence that F plasmid transfer replication underlies apparent adaptive mutation.

Galitski, T; Roth, J R.

Science ; 268(5209): 421-3, 1995 Apr 21.

Article in English | MEDLINE | ID: mdl-7716546

2.

Rearrangement of the bacterial chromosome: forbidden inversions.

Segall, A; Mahan, M J; Roth, J R.

Science ; 241(4871): 1314-8, 1988 Sep 09.

Article in English | MEDLINE | ID: mdl-3045970

3.

Evidence that gene amplification underlies adaptive mutability of the bacterial lac operon.

Andersson, D I; Slechta, E S; Roth, J R.

Science ; 282(5391): 1133-5, 1998 Nov 06.

Article in English | MEDLINE | ID: mdl-9804552

4.

Structural and functional studies of insertion element IS200.

Lam, S; Roth, J R.

J Mol Biol ; 187(2): 157-67, 1986 Jan 20.

Article in English | MEDLINE | ID: mdl-3009825

5.

Ability of a bacterial chromosome segment to invert is dictated by included material rather than flanking sequence.

Mahan, M J; Roth, J R.

Genetics ; 129(4): 1021-32, 1991 Dec.

Article in English | MEDLINE | ID: mdl-1783289

6.

Polarity effects in the hisG gene of salmonella require a site within the coding sequence.

Ciampi, M S; Roth, J R.

Genetics ; 118(2): 193-202, 1988 Feb.

Article in English | MEDLINE | ID: mdl-3282985

7.

Reciprocality of recombination events that rearrange the chromosome.

Mahan, M J; Roth, J R.

Genetics ; 120(1): 23-35, 1988 Sep.

Article in English | MEDLINE | ID: mdl-3065138

8.

Transitory cis complementation: a method for providing transposition functions to defective transposons.

Hughes, K T; Roth, J R.

Genetics ; 119(1): 9-12, 1988 May.

Article in English | MEDLINE | ID: mdl-2840333

9.

Activation of silent genes by transposons Tn5 and Tn10.

Wang, A; Roth, J R.

Genetics ; 120(4): 875-85, 1988 Dec.

Article in English | MEDLINE | ID: mdl-2852142

10.

Recombination between homologies in direct and inverse orientation in the chromosome of Salmonella: intervals which are nonpermissive for inversion formation.

Segall, A M; Roth, J R.

Genetics ; 122(4): 737-47, 1989 Aug.

Article in English | MEDLINE | ID: mdl-2547692

11.

A novel P22 prophage in Salmonella typhimurium.

Downs, D M; Roth, J R.

Genetics ; 117(3): 367-80, 1987 Nov.

Article in English | MEDLINE | ID: mdl-3319766

12.

Role of recBC function in formation of chromosomal rearrangements: a two-step model for recombination.

Mahan, M J; Roth, J R.

Genetics ; 121(3): 433-43, 1989 Mar.

Article in English | MEDLINE | ID: mdl-2714635

13.

Role of gene duplications in the adaptation of Salmonella typhimurium to growth on limiting carbon sources.

Sonti, R V; Roth, J R.

Genetics ; 123(1): 19-28, 1989 Sep.

Article in English | MEDLINE | ID: mdl-2680755

14.

Pathways for homologous recombination between chromosomal direct repeats in Salmonella typhimurium.

Galitski, T; Roth, J R.

Genetics ; 146(3): 751-67, 1997 Jul.

Article in English | MEDLINE | ID: mdl-9215885

15.

Recombination between chromosomal IS200 elements supports frequent duplication formation in Salmonella typhimurium.

Haack, K R; Roth, J R.

Genetics ; 141(4): 1245-52, 1995 Dec.

Article in English | MEDLINE | ID: mdl-8601470

16.

Evolution of coenzyme B12 synthesis among enteric bacteria: evidence for loss and reacquisition of a multigene complex.

Lawrence, J G; Roth, J R.

Genetics ; 142(1): 11-24, 1996 Jan.

Article in English | MEDLINE | ID: mdl-8770581

17.

Selfish operons: horizontal transfer may drive the evolution of gene clusters.

Lawrence, J G; Roth, J R.

Genetics ; 143(4): 1843-60, 1996 Aug.

Article in English | MEDLINE | ID: mdl-8844169

18.

Genetic methods for analysis and manipulation of inversion mutations in bacteria.

Schmid, M B; Roth, J R.

Genetics ; 105(3): 517-37, 1983 Nov.

Article in English | MEDLINE | ID: mdl-6357943

19.

Selection and endpoint distribution of bacterial inversion mutations.

Schmid, M B; Roth, J R.

Genetics ; 105(3): 539-57, 1983 Nov.

Article in English | MEDLINE | ID: mdl-6357944

20.

Genetic mapping of IS200 copies in Salmonella typhimurim strain LT2.

Lam, S; Roth, J R.

Genetics ; 105(4): 801-11, 1983 Dec.

Article in English | MEDLINE | ID: mdl-6315530

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Evidence that F plasmid transfer replication underlies apparent adaptive mutation.

Rearrangement of the bacterial chromosome: forbidden inversions.

Evidence that gene amplification underlies adaptive mutability of the bacterial lac operon.

Structural and functional studies of insertion element IS200.

Ability of a bacterial chromosome segment to invert is dictated by included material rather than flanking sequence.

Polarity effects in the hisG gene of salmonella require a site within the coding sequence.

Reciprocality of recombination events that rearrange the chromosome.

Transitory cis complementation: a method for providing transposition functions to defective transposons.

Activation of silent genes by transposons Tn5 and Tn10.

Recombination between homologies in direct and inverse orientation in the chromosome of Salmonella: intervals which are nonpermissive for inversion formation.

A novel P22 prophage in Salmonella typhimurium.

Role of recBC function in formation of chromosomal rearrangements: a two-step model for recombination.

Role of gene duplications in the adaptation of Salmonella typhimurium to growth on limiting carbon sources.

Pathways for homologous recombination between chromosomal direct repeats in Salmonella typhimurium.

Recombination between chromosomal IS200 elements supports frequent duplication formation in Salmonella typhimurium.

Evolution of coenzyme B12 synthesis among enteric bacteria: evidence for loss and reacquisition of a multigene complex.

Selfish operons: horizontal transfer may drive the evolution of gene clusters.

Genetic methods for analysis and manipulation of inversion mutations in bacteria.

Selection and endpoint distribution of bacterial inversion mutations.

Genetic mapping of IS200 copies in Salmonella typhimurim strain LT2.