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Items: 18

1.

Demonstration of highly efficient dual gRNA CRISPR/Cas9 editing of the homeologous GmFAD2-1A and GmFAD2-1B genes to yield a high oleic, low linoleic and α-linolenic acid phenotype in soybean.

Do PT, Nguyen CX, Bui HT, Tran LTN, Stacey G, Gillman JD, Zhang ZJ, Stacey MG.

BMC Plant Biol. 2019 Jul 15;19(1):311. doi: 10.1186/s12870-019-1906-8.

2.

Identification of Homogentisate Dioxygenase as a Target for Vitamin E Biofortification in Oilseeds.

Stacey MG, Cahoon RE, Nguyen HT, Cui Y, Sato S, Nguyen CT, Phoka N, Clark KM, Liang Y, Forrester J, Batek J, Do PT, Sleper DA, Clemente TE, Cahoon EB, Stacey G.

Plant Physiol. 2016 Nov;172(3):1506-1518. Epub 2016 Sep 22.

3.

Deletions of the SACPD-C locus elevate seed stearic acid levels but also result in fatty acid and morphological alterations in nitrogen fixing nodules.

Gillman JD, Stacey MG, Cui Y, Berg HR, Stacey G.

BMC Plant Biol. 2014 May 27;14:143. doi: 10.1186/1471-2229-14-143.

4.

OPT3 is a component of the iron-signaling network between leaves and roots and misregulation of OPT3 leads to an over-accumulation of cadmium in seeds.

Mendoza-Cózatl DG, Xie Q, Akmakjian GZ, Jobe TO, Patel A, Stacey MG, Song L, Demoin DW, Jurisson SS, Stacey G, Schroeder JI.

Mol Plant. 2014 Sep;7(9):1455-1469. doi: 10.1093/mp/ssu067. Epub 2014 May 31.

5.

Tnt1 retrotransposon mutagenesis: a tool for soybean functional genomics.

Cui Y, Barampuram S, Stacey MG, Hancock CN, Findley S, Mathieu M, Zhang Z, Parrott WA, Stacey G.

Plant Physiol. 2013 Jan;161(1):36-47. doi: 10.1104/pp.112.205369. Epub 2012 Nov 1.

6.

Shoot to root communication is necessary to control the expression of iron-acquisition genes in Strategy I plants.

García MJ, Romera FJ, Stacey MG, Stacey G, Villar E, Alcántara E, Pérez-Vicente R.

Planta. 2013 Jan;237(1):65-75. doi: 10.1007/s00425-012-1757-0. Epub 2012 Sep 15.

PMID:
22983673
7.

Phenotypic and genomic analyses of a fast neutron mutant population resource in soybean.

Bolon YT, Haun WJ, Xu WW, Grant D, Stacey MG, Nelson RT, Gerhardt DJ, Jeddeloh JA, Stacey G, Muehlbauer GJ, Orf JH, Naeve SL, Stupar RM, Vance CP.

Plant Physiol. 2011 May;156(1):240-53. doi: 10.1104/pp.110.170811. Epub 2011 Feb 14.

8.

A LysM receptor-like kinase plays a critical role in chitin signaling and fungal resistance in Arabidopsis.

Wan J, Zhang XC, Neece D, Ramonell KM, Clough S, Kim SY, Stacey MG, Stacey G.

Plant Cell. 2008 Feb;20(2):471-81. doi: 10.1105/tpc.107.056754. Epub 2008 Feb 8.

9.

The Arabidopsis AtOPT3 protein functions in metal homeostasis and movement of iron to developing seeds.

Stacey MG, Patel A, McClain WE, Mathieu M, Remley M, Rogers EE, Gassmann W, Blevins DG, Stacey G.

Plant Physiol. 2008 Feb;146(2):589-601. Epub 2007 Dec 14.

10.

Expression analyses of Arabidopsis oligopeptide transporters during seed germination, vegetative growth and reproduction.

Stacey MG, Osawa H, Patel A, Gassmann W, Stacey G.

Planta. 2006 Jan;223(2):291-305. Epub 2005 Sep 8.

PMID:
16151844
11.
12.

Population density-dependent regulation of the Bradyrhizobium japonicum nodulation genes.

Loh JT, Yuen-Tsai JP, Stacey MG, Lohar D, Welborn A, Stacey G.

Mol Microbiol. 2001 Oct;42(1):37-46.

13.

A marker-dense physical map of the Bradyrhizobium japonicum genome.

Tomkins JP, Wood TC, Stacey MG, Loh JT, Judd A, Goicoechea JL, Stacey G, Sadowsky MJ, Wing RA.

Genome Res. 2001 Aug;11(8):1434-40.

15.

A novel motif mediates the targeting of the Arabidopsis COP1 protein to subnuclear foci.

Stacey MG, von Arnim AG.

J Biol Chem. 1999 Sep 17;274(38):27231-6.

16.
17.

The Bradyrhizobium japonicum nolA gene encodes three functionally distinct proteins.

Loh J, Stacey MG, Sadowsky MJ, Stacey G.

J Bacteriol. 1999 Mar;181(5):1544-54.

18.

Cloning vectors for the expression of green fluorescent protein fusion proteins in transgenic plants.

von Arnim AG, Deng XW, Stacey MG.

Gene. 1998 Oct 9;221(1):35-43.

PMID:
9852947

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