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Items: 1 to 50 of 64

1.

Synthesis of novel heteroleptic delocalised cationic pyrazole gold complexes as potent HepG2 cytotoxic agents.

Afolabi F, Souissi W, Rivière G, Lemaitre C, Roe SM, Crickmore N, Viseux EME.

Dalton Trans. 2018 Nov 21;47(43):15338-15343. doi: 10.1039/c8dt02832j. Epub 2018 Oct 2.

PMID:
30276377
2.

Cry78Aa, a novel Bacillus thuringiensis insecticidal protein with activity against Laodelphax striatellus and Nilaparvata lugens.

Wang Y, Liu Y, Zhang J, Crickmore N, Song F, Gao J, Shu C.

J Invertebr Pathol. 2018 Oct;158:1-5. doi: 10.1016/j.jip.2018.07.007. Epub 2018 Jul 11.

PMID:
30017953
3.

A natural hybrid of a Bacillus thuringiensis Cry2A toxin implicates Domain I in specificity determination.

Shu C, Zhang F, Chen G, Joseph L, Barqawi A, Evans J, Song F, Li G, Zhang J, Crickmore N.

J Invertebr Pathol. 2017 Nov;150:35-40. doi: 10.1016/j.jip.2017.09.002. Epub 2017 Sep 6.

PMID:
28888766
4.

Temperature-dependent development of Helicoverpa armigera (Hübner) (Lepidoptera: Noctuidae) and its larval parasitoid, Habrobracon hebetor (Say) (Hymenoptera: Braconidae): implications for species interactions.

Noor-Ul-Ane M, Ali Mirhosseini M, Crickmore N, Saeed S, Noor I, Zalucki MP.

Bull Entomol Res. 2018 Jun;108(3):295-304. doi: 10.1017/S0007485317000724. Epub 2017 Aug 24.

PMID:
28835290
5.

The human cancer cell active toxin Cry41Aa from Bacillus thuringiensis acts like its insecticidal counterparts.

Krishnan V, Domanska B, Elhigazi A, Afolabi F, West MJ, Crickmore N.

Biochem J. 2017 Apr 28;474(10):1591-1602. doi: 10.1042/BCJ20170122.

PMID:
28341807
6.

In Vivo Crystallization of Three-Domain Cry Toxins.

Adalat R, Saleem F, Crickmore N, Naz S, Shakoori AR.

Toxins (Basel). 2017 Mar 9;9(3). pii: E80. doi: 10.3390/toxins9030080. Review.

7.

Specificity determinants for Cry insecticidal proteins: Insights from their mode of action.

Jurat-Fuentes JL, Crickmore N.

J Invertebr Pathol. 2017 Jan;142:5-10. doi: 10.1016/j.jip.2016.07.018. Epub 2016 Jul 29. Review.

PMID:
27480404
8.

Structural classification of insecticidal proteins - Towards an in silico characterisation of novel toxins.

Berry C, Crickmore N.

J Invertebr Pathol. 2017 Jan;142:16-22. doi: 10.1016/j.jip.2016.07.015. Epub 2016 Jul 29. Review.

PMID:
27480403
9.

Bacillus thuringiensis resistance in Plutella - too many trees?

Crickmore N.

Curr Opin Insect Sci. 2016 Jun;15:84-8. doi: 10.1016/j.cois.2016.04.007. Epub 2016 Apr 20. Review.

PMID:
27436736
10.

In vitro template-change PCR to create single crossover libraries: a case study with B. thuringiensis Cry2A toxins.

Shu C, Zhou J, Crickmore N, Li X, Song F, Liang G, He K, Huang D, Zhang J.

Sci Rep. 2016 Apr 21;6:23536. doi: 10.1038/srep23536.

11.

Use of Redundant Exclusion PCR To Identify a Novel Bacillus thuringiensis Cry8 Toxin Gene from Pooled Genomic DNA.

Zhang F, Shu C, Crickmore N, Li Y, Song F, Liu C, Chen Z, Zhang J.

Appl Environ Microbiol. 2016 Jun 13;82(13):3808-3815. doi: 10.1128/AEM.00862-16. Print 2016 Jul 1.

12.

Is There Sufficient Evidence to Consider Bacillus thuringiensis a Multihost Pathogen? Response to Loguercio and Argôlo-Filho.

Ruan L, Crickmore N, Sun M.

Trends Microbiol. 2015 Oct;23(10):587. doi: 10.1016/j.tim.2015.08.004. No abstract available.

PMID:
26433691
13.

Novel genetic factors involved in resistance to Bacillus thuringiensis in Plutella xylostella.

Ayra-Pardo C, Raymond B, Gulzar A, Rodríguez-Cabrera L, Morán-Bertot I, Crickmore N, Wright DJ.

Insect Mol Biol. 2015 Dec;24(6):589-600. doi: 10.1111/imb.12186. Epub 2015 Sep 3.

PMID:
26335439
14.

Are nematodes a missing link in the confounded ecology of the entomopathogen Bacillus thuringiensis?

Ruan L, Crickmore N, Peng D, Sun M.

Trends Microbiol. 2015 Jun;23(6):341-6. doi: 10.1016/j.tim.2015.02.011. Epub 2015 Mar 25.

PMID:
25818004
15.

Optimizing pyramided transgenic Bt crops for sustainable pest management.

Carrière Y, Crickmore N, Tabashnik BE.

Nat Biotechnol. 2015 Feb;33(2):161-8. doi: 10.1038/nbt.3099. Epub 2015 Jan 19.

PMID:
25599179
16.

Identification of a mosquitocidal toxin from Bacillus thuringiensis using mass spectrometry.

Zhang W, Zhang J, Crickmore N, Wu Z, Yang Y, Qian J, Wu H, Wang R, Fang X.

World J Microbiol Biotechnol. 2014 Dec;30(12):3273-7. doi: 10.1007/s11274-014-1744-7. Epub 2014 Sep 26.

PMID:
25256415
17.

Mining rare and ubiquitous toxin genes from a large collection of Bacillus thuringiensis strains.

Li Y, Shu C, Zhang X, Crickmore N, Liang G, Jiang X, Liu R, Song F, Zhang J.

J Invertebr Pathol. 2014 Oct;122:6-9. doi: 10.1016/j.jip.2014.07.006. Epub 2014 Aug 6.

PMID:
25108136
18.

Genomic sequencing identifies novel Bacillus thuringiensis Vip1/Vip2 binary and Cry8 toxins that have high toxicity to Scarabaeoidea larvae.

Bi Y, Zhang Y, Shu C, Crickmore N, Wang Q, Du L, Song F, Zhang J.

Appl Microbiol Biotechnol. 2015 Jan;99(2):753-60. doi: 10.1007/s00253-014-5966-2. Epub 2014 Aug 1.

PMID:
25081556
19.

Cultivable gut bacteria of scarabs (Coleoptera: Scarabaeidae) inhibit Bacillus thuringiensis multiplication.

Shan Y, Shu C, Crickmore N, Liu C, Xiang W, Song F, Zhang J.

Environ Entomol. 2014 Jun;43(3):612-6. doi: 10.1603/EN14028. Epub 2014 May 7.

PMID:
24780240
20.

The impact of strain diversity and mixed infections on the evolution of resistance to Bacillus thuringiensis.

Raymond B, Wright DJ, Crickmore N, Bonsall MB.

Proc Biol Sci. 2013 Sep 4;280(1769):20131497. doi: 10.1098/rspb.2013.1497. Print 2013 Oct 22.

21.

Use of a pooled clone method to isolate a novel Bacillus thuringiensis Cry2A toxin with activity against Ostrinia furnacalis.

Shu C, Zhang J, Chen G, Liang G, He K, Crickmore N, Huang D, Zhang J, Song F.

J Invertebr Pathol. 2013 Sep;114(1):31-3. doi: 10.1016/j.jip.2013.05.005. Epub 2013 May 24.

PMID:
23711413
22.

Effects of glutathione-S-transferase polymorphisms on the risk of breast cancer: a population-based case-control study in Pakistan.

Sohail A, Kanwal N, Ali M, Sadia S, Masood AI, Ali F, Iqbal F, Crickmore N, Shaikh RS, Sayyed AH.

Environ Toxicol Pharmacol. 2013 Mar;35(2):143-53. doi: 10.1016/j.etap.2012.11.014. Epub 2012 Dec 16.

PMID:
23376175
23.

Lack of Cry1Fa binding to the midgut brush border membrane in a resistant colony of Plutella xylostella moths with a mutation in the ABCC2 locus.

Hernández-Martínez P, Hernández-Rodríguez CS, Krishnan V, Crickmore N, Escriche B, Ferré J.

Appl Environ Microbiol. 2012 Sep;78(18):6759-61. doi: 10.1128/AEM.01689-12. Epub 2012 Jul 6.

24.

Mining new crystal protein genes from Bacillus thuringiensis on the basis of mixed plasmid-enriched genome sequencing and a computational pipeline.

Ye W, Zhu L, Liu Y, Crickmore N, Peng D, Ruan L, Sun M.

Appl Environ Microbiol. 2012 Jul;78(14):4795-801. doi: 10.1128/AEM.00340-12. Epub 2012 Apr 27.

25.

Characterization of a new highly mosquitocidal isolate of Bacillusthuringiensis--an alternative to Bti?

Zhang W, Crickmore N, George Z, Xie L, He YQ, Li Y, Tang JL, Tian L, Wang X, Fang X.

J Invertebr Pathol. 2012 Feb;109(2):217-22. doi: 10.1016/j.jip.2011.11.003. Epub 2011 Nov 22.

PMID:
22137876
26.

Parallel evolution of Bacillus thuringiensis toxin resistance in lepidoptera.

Baxter SW, Badenes-Pérez FR, Morrison A, Vogel H, Crickmore N, Kain W, Wang P, Heckel DG, Jiggins CD.

Genetics. 2011 Oct;189(2):675-9. doi: 10.1534/genetics.111.130971. Epub 2011 Aug 11.

27.

Bacillus thuringiensis: an impotent pathogen?

Raymond B, Johnston PR, Nielsen-LeRoux C, Lereclus D, Crickmore N.

Trends Microbiol. 2010 May;18(5):189-94. doi: 10.1016/j.tim.2010.02.006. Epub 2010 Mar 24.

PMID:
20338765
28.

A mid-gut microbiota is not required for the pathogenicity of Bacillus thuringiensis to diamondback moth larvae.

Raymond B, Johnston PR, Wright DJ, Ellis RJ, Crickmore N, Bonsall MB.

Environ Microbiol. 2009 Oct;11(10):2556-63. doi: 10.1111/j.1462-2920.2009.01980.x. Epub 2009 Jun 25.

29.

Gut bacteria are not required for the insecticidal activity of Bacillus thuringiensis toward the tobacco hornworm, Manduca sexta.

Johnston PR, Crickmore N.

Appl Environ Microbiol. 2009 Aug;75(15):5094-9. doi: 10.1128/AEM.00966-09. Epub 2009 Jun 12.

30.
31.

Genetic characterization of resistance to deltamethrin in Plutella xylostella (Lepidoptera: Plutellidae) from India.

Balasubramani V, Sayyed AH, Crickmore N.

J Econ Entomol. 2008 Dec;101(6):1911-8.

PMID:
19133474
32.

Genetic, biochemical, and physiological characterization of spinosad resistance in Plutella xylostella (Lepidoptera: Plutellidae).

Sayyed AH, Saeed S, Noor-Ul-Ane M, Crickmore N.

J Econ Entomol. 2008 Oct;101(5):1658-66.

PMID:
18950049
33.

Cross-resistance between a Bacillus thuringiensis Cry toxin and non-Bt insecticides in the diamondback moth.

Sayyed AH, Moores G, Crickmore N, Wright DJ.

Pest Manag Sci. 2008 Aug;64(8):813-9. doi: 10.1002/ps.1570.

PMID:
18383197
34.

Cloning and characterization of a novel Cry1A toxin from Bacillus thuringiensis with high toxicity to the Asian corn borer and other lepidopteran insects.

Xue J, Liang G, Crickmore N, Li H, He K, Song F, Feng X, Huang D, Zhang J.

FEMS Microbiol Lett. 2008 Mar;280(1):95-101. doi: 10.1111/j.1574-6968.2007.01053.x. Epub 2008 Jan 31.

35.

Genetics and mechanism of resistance to deltamethrin in a field population of Spodoptera litura (Lepidoptera: Noctuidae).

Ahmad M, Sayyed AH, Crickmore N, Saleem MA.

Pest Manag Sci. 2007 Oct;63(10):1002-10.

PMID:
17674427
37.

[Expression of mosquitocidal Cyt1Aa toxin from Bacillus thuringiensis subsp. israelensis in Asticcacaulis excentricus].

Zheng DS, Crickmore N, Cai YJ, Yan JP, Yuan ZM.

Wei Sheng Wu Xue Bao. 2007 Apr;47(2):217-20. Chinese.

PMID:
17552223
38.

Co-expression of the mosquitocidal toxins Cyt1Aa and Cry11Aa from Bacillus thuringiensis subsp. israelensis in Asticcacaulis excentricus.

Zheng D, Valdez-Cruz NA, Armengol G, Sevrez C, Munoz-Olaya JM, Yuan Z, Orduz S, Crickmore N.

Curr Microbiol. 2007 Jan;54(1):58-62. Epub 2006 Dec 6.

PMID:
17160360
39.
40.

Structure of recombinant Ves v 2 at 2.0 Angstrom resolution: structural analysis of an allergenic hyaluronidase from wasp venom.

Skov LK, Seppälä U, Coen JJ, Crickmore N, King TP, Monsalve R, Kastrup JS, Spangfort MD, Gajhede M.

Acta Crystallogr D Biol Crystallogr. 2006 Jun;62(Pt 6):595-604. Epub 2006 May 12.

PMID:
16699186
41.

Common, but complex, mode of resistance of Plutella xylostella to Bacillus thuringiensis toxins Cry1Ab and Cry1Ac.

Sayyed AH, Gatsi R, Ibiza-Palacios MS, Escriche B, Wright DJ, Crickmore N.

Appl Environ Microbiol. 2005 Nov;71(11):6863-9.

42.

Expression of the Bacillus thuringiensis mosquitocidal toxin Cry11Aa in the aquatic bacterium Asticcacaulis excentricus.

Armengol G, Guevara OE, Orduz S, Crickmore N.

Curr Microbiol. 2005 Dec;51(6):430-3. Epub 2005 Oct 25.

PMID:
16252134
43.

Bt toxin not guilty by association.

de Maagd RA, Bravo A, Crickmore N.

Nat Biotechnol. 2005 Jul;23(7):791. No abstract available.

PMID:
16003355
44.

Using worms to better understand how Bacillus thuringiensis kills insects.

Crickmore N.

Trends Microbiol. 2005 Aug;13(8):347-50. Review.

PMID:
15967665
45.

Structure, diversity, and evolution of protein toxins from spore-forming entomopathogenic bacteria.

de Maagd RA, Bravo A, Berry C, Crickmore N, Schnepf HE.

Annu Rev Genet. 2003;37:409-33. Review.

PMID:
14616068
46.

Identification of a novel DNA methyltransferase activity from Bacillus thuringiensis.

Jenkinson E, Crickmore N.

Curr Microbiol. 2003 Aug;47(2):144-5.

PMID:
14506863
47.

N-terminal activation is an essential early step in the mechanism of action of the Bacillus thuringiensis Cry1Ac insecticidal toxin.

Bravo A, Sanchez J, Kouskoura T, Crickmore N.

J Biol Chem. 2002 Jul 5;277(27):23985-7. Epub 2002 May 17.

49.

Expression and crystallization of an N-terminally activated form of the Bacillus thuringiensis Cry1Ca toxin.

Kouskoura T, Tickner C, Crickmore N.

Curr Microbiol. 2001 Nov;43(5):371-3.

PMID:
11688803
50.

Susceptibility of a field-derived, Bacillus thuringiensis-resistant strain of diamondback moth to in vitro-activated Cry1Ac toxin.

Sayyed AH, Gatsi R, Kouskoura T, Wright DJ, Crickmore N.

Appl Environ Microbiol. 2001 Sep;67(9):4372-3.

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