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Items: 1 to 50 of 198

1.

Agrobacterium: nature's genetic engineer.

Nester EW.

Front Plant Sci. 2015 Jan 6;5:730. doi: 10.3389/fpls.2014.00730. eCollection 2014.

2.

Horizontal gene transfer from genus agrobacterium to the plant linaria in nature.

Matveeva TV, Bogomaz DI, Pavlova OA, Nester EW, Lutova LA.

Mol Plant Microbe Interact. 2012 Dec;25(12):1542-51. doi: 10.1094/MPMI-07-12-0169-R.

3.

Climate change and the integrity of science.

Gleick PH, Adams RM, Amasino RM, Anders E, Anderson DJ, Anderson WW, Anselin LE, Arroyo MK, Asfaw B, Ayala FJ, Bax A, Bebbington AJ, Bell G, Bennett MV, Bennetzen JL, Berenbaum MR, Berlin OB, Bjorkman PJ, Blackburn E, Blamont JE, Botchan MR, Boyer JS, Boyle EA, Branton D, Briggs SP, Briggs WR, Brill WJ, Britten RJ, Broecker WS, Brown JH, Brown PO, Brunger AT, Cairns J Jr, Canfield DE, Carpenter SR, Carrington JC, Cashmore AR, Castilla JC, Cazenave A, Chapin FS 3rd, Ciechanover AJ, Clapham DE, Clark WC, Clayton RN, Coe MD, Conwell EM, Cowling EB, Cowling RM, Cox CS, Croteau RB, Crothers DM, Crutzen PJ, Daily GC, Dalrymple GB, Dangl JL, Darst SA, Davies DR, Davis MB, De Camilli PV, Dean C, DeFries RS, Deisenhofer J, Delmer DP, DeLong EF, DeRosier DJ, Diener TO, Dirzo R, Dixon JE, Donoghue MJ, Doolittle RF, Dunne T, Ehrlich PR, Eisenstadt SN, Eisner T, Emanuel KA, Englander SW, Ernst WG, Falkowski PG, Feher G, Ferejohn JA, Fersht A, Fischer EH, Fischer R, Flannery KV, Frank J, Frey PA, Fridovich I, Frieden C, Futuyma DJ, Gardner WR, Garrett CJ, Gilbert W, Goldberg RB, Goodenough WH, Goodman CS, Goodman M, Greengard P, Hake S, Hammel G, Hanson S, Harrison SC, Hart SR, Hartl DL, Haselkorn R, Hawkes K, Hayes JM, Hille B, Hökfelt T, House JS, Hout M, Hunten DM, Izquierdo IA, Jagendorf AT, Janzen DH, Jeanloz R, Jencks CS, Jury WA, Kaback HR, Kailath T, Kay P, Kay SA, Kennedy D, Kerr A, Kessler RC, Khush GS, Kieffer SW, Kirch PV, Kirk K, Kivelson MG, Klinman JP, Klug A, Knopoff L, Kornberg H, Kutzbach JE, Lagarias JC, Lambeck K, Landy A, Langmuir CH, Larkins BA, Le Pichon XT, Lenski RE, Leopold EB, Levin SA, Levitt M, Likens GE, Lippincott-Schwartz J, Lorand L, Lovejoy CO, Lynch M, Mabogunje AL, Malone TF, Manabe S, Marcus J, Massey DS, McWilliams JC, Medina E, Melosh HJ, Meltzer DJ, Michener CD, Miles EL, Mooney HA, Moore PB, Morel FM, Mosley-Thompson ES, Moss B, Munk WH, Myers N, Nair GB, Nathans J, Nester EW, Nicoll RA, Novick RP, O'Connell JF, Olsen PE, Opdyke ND, Oster GF, Ostrom E, Pace NR, Paine RT, Palmiter RD, Pedlosky J, Petsko GA, Pettengill GH, Philander SG, Piperno DR, Pollard TD, Price PB Jr, Reichard PA, Reskin BF, Ricklefs RE, Rivest RL, Roberts JD, Romney AK, Rossmann MG, Russell DW, Rutter WJ, Sabloff JA, Sagdeev RZ, Sahlins MD, Salmond A, Sanes JR, Schekman R, Schellnhuber J, Schindler DW, Schmitt J, Schneider SH, Schramm VL, Sederoff RR, Shatz CJ, Sherman F, Sidman RL, Sieh K, Simons EL, Singer BH, Singer MF, Skyrms B, Sleep NH, Smith BD, Snyder SH, Sokal RR, Spencer CS, Steitz TA, Strier KB, Südhof TC, Taylor SS, Terborgh J, Thomas DH, Thompson LG, Tjian RT, Turner MG, Uyeda S, Valentine JW, Valentine JS, Van Etten JL, van Holde KE, Vaughan M, Verba S, von Hippel PH, Wake DB, Walker A, Walker JE, Watson EB, Watson PJ, Weigel D, Wessler SR, West-Eberhard MJ, White TD, Wilson WJ, Wolfenden RV, Wood JA, Woodwell GM, Wright HE Jr, Wu C, Wunsch C, Zoback ML.

Science. 2010 May 7;328(5979):689-90. doi: 10.1126/science.328.5979.689. No abstract available. Erratum in: Science. 2010 May 14;328(5980):826.

4.

Genome sequences of three agrobacterium biovars help elucidate the evolution of multichromosome genomes in bacteria.

Slater SC, Goldman BS, Goodner B, Setubal JC, Farrand SK, Nester EW, Burr TJ, Banta L, Dickerman AW, Paulsen I, Otten L, Suen G, Welch R, Almeida NF, Arnold F, Burton OT, Du Z, Ewing A, Godsy E, Heisel S, Houmiel KL, Jhaveri J, Lu J, Miller NM, Norton S, Chen Q, Phoolcharoen W, Ohlin V, Ondrusek D, Pride N, Stricklin SL, Sun J, Wheeler C, Wilson L, Zhu H, Wood DW.

J Bacteriol. 2009 Apr;191(8):2501-11. doi: 10.1128/JB.01779-08. Epub 2009 Feb 27.

5.

Infiltration with Agrobacterium tumefaciens induces host defense and development-dependent responses in the infiltrated zone.

Pruss GJ, Nester EW, Vance V.

Mol Plant Microbe Interact. 2008 Dec;21(12):1528-38. doi: 10.1094/MPMI-21-12-1528.

6.

Comparative transcriptome analysis of Agrobacterium tumefaciens in response to plant signal salicylic acid, indole-3-acetic acid and gamma-amino butyric acid reveals signalling cross-talk and Agrobacterium--plant co-evolution.

Yuan ZC, Haudecoeur E, Faure D, Kerr KF, Nester EW.

Cell Microbiol. 2008 Nov;10(11):2339-54. doi: 10.1111/j.1462-5822.2008.01215.x. Epub 2008 Aug 15.

PMID:
18671824
8.

The plant signal salicylic acid shuts down expression of the vir regulon and activates quormone-quenching genes in Agrobacterium.

Yuan ZC, Edlind MP, Liu P, Saenkham P, Banta LM, Wise AA, Ronzone E, Binns AN, Kerr K, Nester EW.

Proc Natl Acad Sci U S A. 2007 Jul 10;104(28):11790-5. Epub 2007 Jul 2.

9.

A catalytic carbohydrate contributes to bacterial antibiotic resistance.

de Figueiredo P, Terra B, Anand JK, Hikita T, Sadilek M, Monks DE, Lenskiy A, Hakomori S, Nester EW.

Extremophiles. 2007 Jan;11(1):133-43. Epub 2006 Oct 18.

PMID:
17048043
10.

The Arabidopsis thaliana transcriptome in response to Agrobacterium tumefaciens.

Ditt RF, Kerr KF, de Figueiredo P, Delrow J, Comai L, Nester EW.

Mol Plant Microbe Interact. 2006 Jun;19(6):665-81.

11.

Indoleacetic acid, a product of transferred DNA, inhibits vir gene expression and growth of Agrobacterium tumefaciens C58.

Liu P, Nester EW.

Proc Natl Acad Sci U S A. 2006 Mar 21;103(12):4658-62. Epub 2006 Mar 14.

13.

Citrate synthase mutants of Agrobacterium are attenuated in virulence and display reduced vir gene induction.

Suksomtip M, Liu P, Anderson T, Tungpradabkul S, Wood DW, Nester EW.

J Bacteriol. 2005 Jul;187(14):4844-52.

14.

DARTs: A DNA-based in vitro polypeptide display technology.

de Figueiredo P, Roberts RL, Nester EW.

Proteomics. 2004 Oct;4(10):3128-40.

PMID:
15378701
15.

Purine synthesis and increased Agrobacterium tumefaciens transformation of yeast and plants.

Roberts RL, Metz M, Monks DE, Mullaney ML, Hall T, Nester EW.

Proc Natl Acad Sci U S A. 2003 May 27;100(11):6634-9. Epub 2003 May 9.

16.

A global pH sensor: Agrobacterium sensor protein ChvG regulates acid-inducible genes on its two chromosomes and Ti plasmid.

Li L, Jia Y, Hou Q, Charles TC, Nester EW, Pan SQ.

Proc Natl Acad Sci U S A. 2002 Sep 17;99(19):12369-74. Epub 2002 Sep 6.

17.
18.

A new type IV secretion system promotes conjugal transfer in Agrobacterium tumefaciens.

Chen L, Chen Y, Wood DW, Nester EW.

J Bacteriol. 2002 Sep;184(17):4838-45.

19.

The genome of the natural genetic engineer Agrobacterium tumefaciens C58.

Wood DW, Setubal JC, Kaul R, Monks DE, Kitajima JP, Okura VK, Zhou Y, Chen L, Wood GE, Almeida NF Jr, Woo L, Chen Y, Paulsen IT, Eisen JA, Karp PD, Bovee D Sr, Chapman P, Clendenning J, Deatherage G, Gillet W, Grant C, Kutyavin T, Levy R, Li MJ, McClelland E, Palmieri A, Raymond C, Rouse G, Saenphimmachak C, Wu Z, Romero P, Gordon D, Zhang S, Yoo H, Tao Y, Biddle P, Jung M, Krespan W, Perry M, Gordon-Kamm B, Liao L, Kim S, Hendrick C, Zhao ZY, Dolan M, Chumley F, Tingey SV, Tomb JF, Gordon MP, Olson MV, Nester EW.

Science. 2001 Dec 14;294(5550):2317-23.

20.

Plant gene expression response to Agrobacterium tumefaciens.

Ditt RF, Nester EW, Comai L.

Proc Natl Acad Sci U S A. 2001 Sep 11;98(19):10954-9. Epub 2001 Sep 4.

21.

Characterization of a putative RND-type efflux system in Agrobacterium tumefaciens.

Peng WT, Nester EW.

Gene. 2001 May 30;270(1-2):245-52.

PMID:
11404022
22.

The chvH locus of Agrobacterium encodes a homologue of an elongation factor involved in protein synthesis.

Peng WT, Banta LM, Charles TC, Nester EW.

J Bacteriol. 2001 Jan;183(1):36-45.

23.

Early germinative ideas on the origins of infectious disease.

Kelman A, Sequeira L, Nester EW.

Science. 2000 Sep 8;289(5485):1689-91. No abstract available.

PMID:
11001732
24.

Transferred DNA (T-DNA)-associated proteins of Agrobacterium tumefaciens are exported independently of virB.

Chen L, Li CM, Nester EW.

Proc Natl Acad Sci U S A. 2000 Jun 20;97(13):7545-50.

25.

DNA and protein transfer from bacteria to eukaryotes- the agrobacterium story.

Nester EW.

Mol Plant Pathol. 2000 Jan 1;1(1):87-90. doi: 10.1046/j.1364-3703.2000.00012.x.

PMID:
20572955
26.

VirE1 is a specific molecular chaperone for the exported single-stranded-DNA-binding protein VirE2 in Agrobacterium.

Deng W, Chen L, Peng WT, Liang X, Sekiguchi S, Gordon MP, Comai L, Nester EW.

Mol Microbiol. 1999 Mar;31(6):1795-807.

28.

Agrobacterium VirD2 protein interacts with plant host cyclophilins.

Deng W, Chen L, Wood DW, Metcalfe T, Liang X, Gordon MP, Comai L, Nester EW.

Proc Natl Acad Sci U S A. 1998 Jun 9;95(12):7040-5.

29.

Characterization of an unusual sensor gene (virA) of Agrobacterium.

Lee YW, Ha UH, Sim WS, Nester EW.

Gene. 1998 Apr 14;210(2):307-14.

PMID:
9573388
30.
31.

Variable efficiency of a Ti plasmid-encoded VirA protein in different agrobacterial hosts.

Bélanger C, Loubens I, Nester EW, Dion P.

J Bacteriol. 1997 Apr;179(7):2305-13.

32.

Discrete regions of the sensor protein virA determine the strain-specific ability of Agrobacterium to agroinfect maize.

Heath JD, Boulton MI, Raineri DM, Doty SL, Mushegian AR, Charles TC, Davies JW, Nester EW.

Mol Plant Microbe Interact. 1997 Mar;10(2):221-7.

33.
34.

Pilus assembly by Agrobacterium T-DNA transfer genes.

Fullner KJ, Lara JC, Nester EW.

Science. 1996 Aug 23;273(5278):1107-9.

PMID:
8688097
35.

A family of lysozyme-like virulence factors in bacterial pathogens of plants and animals.

Mushegian AR, Fullner KJ, Koonin EV, Nester EW.

Proc Natl Acad Sci U S A. 1996 Jul 9;93(14):7321-6.

36.

Temperature affects the T-DNA transfer machinery of Agrobacterium tumefaciens.

Fullner KJ, Nester EW.

J Bacteriol. 1996 Mar;178(6):1498-504.

37.

Agrobacterium tumefaciens-mediated transformation of yeast.

Piers KL, Heath JD, Liang X, Stephens KM, Nester EW.

Proc Natl Acad Sci U S A. 1996 Feb 20;93(4):1613-8.

38.

Mutational analysis of the input domain of the VirA protein of Agrobacterium tumefaciens.

Doty SL, Yu MC, Lundin JI, Heath JD, Nester EW.

J Bacteriol. 1996 Feb;178(4):961-70.

39.

Genetic evidence for direct sensing of phenolic compounds by the VirA protein of Agrobacterium tumefaciens.

Lee YW, Jin S, Sim WS, Nester EW.

Proc Natl Acad Sci U S A. 1995 Dec 19;92(26):12245-9.

40.

T-DNA genes responsible for inducing a necrotic response on grape vines.

Deng W, Pu XA, Goodman RN, Gordon MP, Nester EW.

Mol Plant Microbe Interact. 1995 Jul-Aug;8(4):538-48.

PMID:
8589410
41.

An Agrobacterium virulence factor encoded by a Ti plasmid gene or a chromosomal gene is required for T-DNA transfer into plants.

Pan SQ, Jin S, Boulton MI, Hawes M, Gordon MP, Nester EW.

Mol Microbiol. 1995 Jul;17(2):259-69.

PMID:
7494475
43.
44.
46.
47.

Preformed dimeric state of the sensor protein VirA is involved in plant--Agrobacterium signal transduction.

Pan SQ, Charles T, Jin S, Wu ZL, Nester EW.

Proc Natl Acad Sci U S A. 1993 Nov 1;90(21):9939-43.

48.

The regulatory VirA protein of Agrobacterium tumefaciens does not function at elevated temperatures.

Jin S, Song YN, Deng WY, Gordon MP, Nester EW.

J Bacteriol. 1993 Nov;175(21):6830-5.

50.

Dynamic structure of Agrobacterium tumefaciens Ti plasmids.

Fortin C, Marquis C, Nester EW, Dion P.

J Bacteriol. 1993 Aug;175(15):4790-9.

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