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Items: 1 to 20 of 64

1.

Phytophthora megakarya and P. palmivora, closely related causal agents of cacao black pod rot, underwent increases in genome sizes and gene numbers by different mechanisms.

Ali SS, Shao J, Lary DJ, Kronmiller B, Shen D, Strem MD, Amoako-Attah I, Akrofi AY, Begoude BA, Ten Hoopen GM, Coulibaly K, Kebe BI, Melnick RL, Guiltinan MJ, Tyler BM, Meinhardt LW, Bailey BA.

Genome Biol Evol. 2017 Feb 10. doi: 10.1093/gbe/evx021. [Epub ahead of print] No abstract available.

2.

Erratum to: Theobroma cacao L. pathogenesis-related gene tandem array members show diverse expression dynamics in response to pathogen colonization.

Fister AS, Mejia LC, Zhang Y, Herre EA, Maximova SN, Guiltinan MJ.

BMC Genomics. 2016 Sep 7;17(1):715. No abstract available.

3.

Theobroma cacao L. pathogenesis-related gene tandem array members show diverse expression dynamics in response to pathogen colonization.

Fister AS, Mejia LC, Zhang Y, Herre EA, Maximova SN, Guiltinan MJ.

BMC Genomics. 2016 May 17;17:363. doi: 10.1186/s12864-016-2693-3. Erratum in: BMC Genomics. 2016 Sep 7;17(1):715.

4.

Protocol: transient expression system for functional genomics in the tropical tree Theobroma cacao L.

Fister AS, Shi Z, Zhang Y, Helliwell EE, Maximova SN, Guiltinan MJ.

Plant Methods. 2016 Mar 11;12:19. doi: 10.1186/s13007-016-0119-5. eCollection 2016.

5.

Enhanced resistance in Theobroma cacao against oomycete and fungal pathogens by secretion of phosphatidylinositol-3-phosphate-binding proteins.

Helliwell EE, Vega-Arreguín J, Shi Z, Bailey B, Xiao S, Maximova SN, Tyler BM, Guiltinan MJ.

Plant Biotechnol J. 2016 Mar;14(3):875-86. doi: 10.1111/pbi.12436. Epub 2015 Jul 27.

6.

Two Theobroma cacao genotypes with contrasting pathogen tolerance show aberrant transcriptional and ROS responses after salicylic acid treatment.

Fister AS, O'Neil ST, Shi Z, Zhang Y, Tyler BM, Guiltinan MJ, Maximova SN.

J Exp Bot. 2015 Oct;66(20):6245-58. doi: 10.1093/jxb/erv334. Epub 2015 Jul 10.

7.

Tc-MYBPA an Arabidopsis TT2-like transcription factor and functions in the regulation of proanthocyanidin synthesis in Theobroma cacao.

Liu Y, Shi Z, Maximova SN, Payne MJ, Guiltinan MJ.

BMC Plant Biol. 2015 Jun 25;15:160. doi: 10.1186/s12870-015-0529-y.

8.

Enhanced somatic embryogenesis in Theobroma cacao using the homologous BABY BOOM transcription factor.

Florez SL, Erwin RL, Maximova SN, Guiltinan MJ, Curtis WR.

BMC Plant Biol. 2015 May 16;15:121. doi: 10.1186/s12870-015-0479-4.

9.

Characterization of a stearoyl-acyl carrier protein desaturase gene family from chocolate tree, Theobroma cacao L.

Zhang Y, Maximova SN, Guiltinan MJ.

Front Plant Sci. 2015 Apr 14;6:239. doi: 10.3389/fpls.2015.00239. eCollection 2015.

10.

Proteome analysis during pod, zygotic and somatic embryo maturation of Theobroma cacao.

Niemenak N, Kaiser E, Maximova SN, Laremore T, Guiltinan MJ.

J Plant Physiol. 2015 May 15;180:49-60. doi: 10.1016/j.jplph.2015.02.011. Epub 2015 Apr 1.

PMID:
25889873
11.

Pervasive effects of a dominant foliar endophytic fungus on host genetic and phenotypic expression in a tropical tree.

Mejía LC, Herre EA, Sparks JP, Winter K, García MN, Van Bael SA, Stitt J, Shi Z, Zhang Y, Guiltinan MJ, Maximova SN.

Front Microbiol. 2014 Sep 12;5:479. doi: 10.3389/fmicb.2014.00479. eCollection 2014.

12.

Genome-wide analysis reveals divergent patterns of gene expression during zygotic and somatic embryo maturation of Theobroma cacao L., the chocolate tree.

Maximova SN, Florez S, Shen X, Niemenak N, Zhang Y, Curtis W, Guiltinan MJ.

BMC Plant Biol. 2014 Jul 16;14:185. doi: 10.1186/1471-2229-14-185.

13.

Application of glycerol as a foliar spray activates the defence response and enhances disease resistance of Theobroma cacao.

Zhang Y, Smith P, Maximova SN, Guiltinan MJ.

Mol Plant Pathol. 2015 Jan;16(1):27-37. doi: 10.1111/mpp.12158. Epub 2014 Jul 9.

PMID:
24863347
14.

The Theobroma cacao B3 domain transcription factor TcLEC2 plays a duel role in control of embryo development and maturation.

Zhang Y, Clemens A, Maximova SN, Guiltinan MJ.

BMC Plant Biol. 2014 Apr 24;14:106. doi: 10.1186/1471-2229-14-106.

15.

Genome and secretome analysis of the hemibiotrophic fungal pathogen, Moniliophthora roreri, which causes frosty pod rot disease of cacao: mechanisms of the biotrophic and necrotrophic phases.

Meinhardt LW, Costa GG, Thomazella DP, Teixeira PJ, Carazzolle MF, Schuster SC, Carlson JE, Guiltinan MJ, Mieczkowski P, Farmer A, Ramaraj T, Crozier J, Davis RE, Shao J, Melnick RL, Pereira GA, Bailey BA.

BMC Genomics. 2014 Feb 27;15:164. doi: 10.1186/1471-2164-15-164.

16.

TcNPR3 from Theobroma cacao functions as a repressor of the pathogen defense response.

Shi Z, Zhang Y, Maximova SN, Guiltinan MJ.

BMC Plant Biol. 2013 Dec 6;13:204. doi: 10.1186/1471-2229-13-204.

17.

Proanthocyanidin synthesis in Theobroma cacao: genes encoding anthocyanidin synthase, anthocyanidin reductase, and leucoanthocyanidin reductase.

Liu Y, Shi Z, Maximova S, Payne MJ, Guiltinan MJ.

BMC Plant Biol. 2013 Dec 5;13:202. doi: 10.1186/1471-2229-13-202.

18.

The salicylic acid receptor NPR3 is a negative regulator of the transcriptional defense response during early flower development in Arabidopsis.

Shi Z, Maximova S, Liu Y, Verica J, Guiltinan MJ.

Mol Plant. 2013 May;6(3):802-16. doi: 10.1093/mp/sss091. Epub 2012 Sep 17.

19.

The mitochondrial genome of Moniliophthora roreri, the frosty pod rot pathogen of cacao.

Costa GG, Cabrera OG, Tiburcio RA, Medrano FJ, Carazzolle MF, Thomazella DP, Schuster SC, Carlson JE, Guiltinan MJ, Bailey BA, Mieczkowski P, Pereira GA, Meinhardt LW.

Fungal Biol. 2012 May;116(5):551-62. doi: 10.1016/j.funbio.2012.01.008. Epub 2012 Feb 15.

PMID:
22559916
20.

Deficiency of maize starch-branching enzyme I results in altered starch fine structure, decreased digestibility and reduced coleoptile growth during germination.

Xia H, Yandeau-Nelson M, Thompson DB, Guiltinan MJ.

BMC Plant Biol. 2011 May 21;11:95. doi: 10.1186/1471-2229-11-95.

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