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Items: 1 to 20 of 103

1.

Streamlining recombination-mediated genetic engineering by validating three neutral integration sites in Synechococcus sp. PCC 7002.

Vogel AIM, Lale R, Hohmann-Marriott MF.

J Biol Eng. 2017 Jun 5;11:19. doi: 10.1186/s13036-017-0061-8. eCollection 2017.

2.

Epistasis and the Evolution of Antimicrobial Resistance.

Wong A.

Front Microbiol. 2017 Feb 17;8:246. doi: 10.3389/fmicb.2017.00246. eCollection 2017. Review.

3.

Effect of antibiotics on bacterial populations: a multi-hierachical selection process.

Martínez JL.

F1000Res. 2017 Jan 17;6:51. doi: 10.12688/f1000research.9685.1. eCollection 2017. Review.

4.

Alanine 501 Mutations in Penicillin-Binding Protein 2 from Neisseria gonorrhoeae: Structure, Mechanism, and Effects on Cephalosporin Resistance and Biological Fitness.

Tomberg J, Fedarovich A, Vincent LR, Jerse AE, Unemo M, Davies C, Nicholas RA.

Biochemistry. 2017 Feb 28;56(8):1140-1150. doi: 10.1021/acs.biochem.6b01030. Epub 2017 Feb 16.

PMID:
28145684
5.

Novel Pathways for Ameliorating the Fitness Cost of Gentamicin Resistant Small Colony Variants.

Vestergaard M, Paulander W, Leng B, Nielsen JB, Westh HT, Ingmer H.

Front Microbiol. 2016 Nov 22;7:1866. eCollection 2016.

6.

Sublethal streptomycin concentrations and lytic bacteriophage together promote resistance evolution.

Cairns J, Becks L, Jalasvuori M, Hiltunen T.

Philos Trans R Soc Lond B Biol Sci. 2017 Jan 19;372(1712). pii: 20160040.

PMID:
27920385
7.

Saccharomyces cerevisiae single-copy plasmids for auxotrophy compensation, multiple marker selection, and for designing metabolically cooperating communities.

Mülleder M, Campbell K, Matsarskaia O, Eckerstorfer F, Ralser M.

F1000Res. 2016 Sep 20;5:2351. doi: 10.12688/f1000research.9606.1. eCollection 2016.

8.

Dissemination of Novel Antimicrobial Resistance Mechanisms through the Insertion Sequence Mediated Spread of Metabolic Genes.

Furi L, Haigh R, Al Jabri ZJ, Morrissey I, Ou HY, León-Sampedro R, Martinez JL, Coque TM, Oggioni MR.

Front Microbiol. 2016 Jun 28;7:1008. doi: 10.3389/fmicb.2016.01008. eCollection 2016.

9.

Molecular Detection of the Virulent ExoU Genotype of Pseudomonas aeruginosa Isolated from Infected Surgical Incisions.

Hassuna NA.

Surg Infect (Larchmt). 2016 Oct;17(5):610-4. doi: 10.1089/sur.2016.065. Epub 2016 Jul 21.

PMID:
27441791
10.

Determinants of Genetic Diversity of Spontaneous Drug Resistance in Bacteria.

Couce A, Rodríguez-Rojas A, Blázquez J.

Genetics. 2016 Jul;203(3):1369-80. doi: 10.1534/genetics.115.185355. Epub 2016 May 10.

11.

Epistasis between antibiotic resistance mutations and genetic background shape the fitness effect of resistance across species of Pseudomonas.

Vogwill T, Kojadinovic M, MacLean RC.

Proc Biol Sci. 2016 May 11;283(1830). pii: 20160151. doi: 10.1098/rspb.2016.0151.

12.

Antibiotic resistance mechanisms in M. tuberculosis: an update.

Nguyen L.

Arch Toxicol. 2016 Jul;90(7):1585-604. doi: 10.1007/s00204-016-1727-6. Epub 2016 May 9. Review.

13.

Dynamics of Mutations during Development of Resistance by Pseudomonas aeruginosa against Five Antibiotics.

Feng Y, Jonker MJ, Moustakas I, Brul S, Ter Kuile BH.

Antimicrob Agents Chemother. 2016 Jun 20;60(7):4229-36. doi: 10.1128/AAC.00434-16. Print 2016 Jul.

14.

Experimental Simulation of the Effects of an Initial Antibiotic Treatment on a Subsequent Treatment after Initial Therapy Failure.

Feng Y, Händel N, de Groot MH, Brul S, Schultsz C, Ter Kuile BH.

Antibiotics (Basel). 2014 Feb 17;3(1):49-63. doi: 10.3390/antibiotics3010049.

15.

Mortality attributable to carbapenem-resistant Pseudomonas aeruginosa bacteremia: a meta-analysis of cohort studies.

Zhang Y, Chen XL, Huang AW, Liu SL, Liu WJ, Zhang N, Lu XZ.

Emerg Microbes Infect. 2016 Mar 23;5:e27. doi: 10.1038/emi.2016.22. Review.

16.

The Role of Adherence and Retreatment in De Novo Emergence of MDR-TB.

Cadosch D, Abel Zur Wiesch P, Kouyos R, Bonhoeffer S.

PLoS Comput Biol. 2016 Mar 11;12(3):e1004749. doi: 10.1371/journal.pcbi.1004749. eCollection 2016 Mar.

17.

Experimental evolution in biofilm populations.

Steenackers HP, Parijs I, Foster KR, Vanderleyden J.

FEMS Microbiol Rev. 2016 May;40(3):373-97. doi: 10.1093/femsre/fuw002. Epub 2016 Feb 18. Review. Erratum in: FEMS Microbiol Rev. 2016 Aug 11;:.

18.

Development of Antibiotic Resistance during Simulated Treatment of Pseudomonas aeruginosa in Chemostats.

Feng Y, Hodiamont CJ, van Hest RM, Brul S, Schultsz C, Ter Kuile BH.

PLoS One. 2016 Feb 12;11(2):e0149310. doi: 10.1371/journal.pone.0149310. eCollection 2016.

19.

Protein profiling of mefloquine resistant Plasmodium falciparum using mass spectrometry-based proteomics.

Reamtong O, Srimuang K, Saralamba N, Sangvanich P, Day NP, White NJ, Imwong M.

Int J Mass Spectrom. 2015 Nov 30;391:82-92.

20.

The genomic basis of adaptation to the fitness cost of rifampicin resistance in Pseudomonas aeruginosa.

Qi Q, Toll-Riera M, Heilbron K, Preston GM, MacLean RC.

Proc Biol Sci. 2016 Jan 13;283(1822). pii: 20152452. doi: 10.1098/rspb.2015.2452.

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