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Items: 18

1.

Bacterial RNA chaperones confer abiotic stress tolerance in plants and improved grain yield in maize under water-limited conditions.

Castiglioni P, Warner D, Bensen RJ, Anstrom DC, Harrison J, Stoecker M, Abad M, Kumar G, Salvador S, D'Ordine R, Navarro S, Back S, Fernandes M, Targolli J, Dasgupta S, Bonin C, Luethy MH, Heard JE.

Plant Physiol. 2008 Jun;147(2):446-55. doi: 10.1104/pp.108.118828. No abstract available.

2.

Modifying lysine biosynthesis and catabolism in corn with a single bifunctional expression/silencing transgene cassette.

Frizzi A, Huang S, Gilbertson LA, Armstrong TA, Luethy MH, Malvar TM.

Plant Biotechnol J. 2008 Jan;6(1):13-21. Epub 2007 Aug 28.

3.

High-lysine corn generated by endosperm-specific suppression of lysine catabolism using RNAi.

Houmard NM, Mainville JL, Bonin CP, Huang S, Luethy MH, Malvar TM.

Plant Biotechnol J. 2007 Sep;5(5):605-14. Epub 2007 Jun 6.

4.

High-lysine corn produced by the combination of enhanced lysine biosynthesis and reduced zein accumulation.

Huang S, Kruger DE, Frizzi A, D'Ordine RL, Florida CA, Adams WR, Brown WE, Luethy MH.

Plant Biotechnol J. 2005 Nov;3(6):555-69.

5.

High lysine and high tryptophan transgenic maize resulting from the reduction of both 19- and 22-kD alpha-zeins.

Huang S, Frizzi A, Florida CA, Kruger DE, Luethy MH.

Plant Mol Biol. 2006 Jun;61(3):525-35.

PMID:
16830184
6.

Generation of marker-free transgenic maize by regular two-border Agrobacterium transformation vectors.

Huang S, Gilbertson LA, Adams TH, Malloy KP, Reisenbigler EK, Birr DH, Snyder MW, Zhang Q, Luethy MH.

Transgenic Res. 2004 Oct;13(5):451-61.

PMID:
15587269
7.

Improving nutritional quality of maize proteins by expressing sense and antisense zein genes.

Huang S, Adams WR, Zhou Q, Malloy KP, Voyles DA, Anthony J, Kriz AL, Luethy MH.

J Agric Food Chem. 2004 Apr 7;52(7):1958-64.

PMID:
15053536
8.

Matrix-assisted laser desorption ionization time-of-flight mass spectrometry analysis of zeins in mature maize kernels.

Adams WR, Huang S, Kriz AL, Luethy MH.

J Agric Food Chem. 2004 Apr 7;52(7):1842-9.

PMID:
15053519
9.

Developmental expression of the mitochondrial pyruvate dehydrogenase complex in pea (Pisum sativum) seedlings.

Luethy MH, Gemel J, Johnston ML, Mooney BP, Miernyk JA, Randall DD.

Physiol Plant. 2001 Aug;112(4):559-566.

PMID:
11473717
10.

The dihydrolipoamide S-acetyltransferase subunit of the mitochondrial pyruvate dehydrogenase complex from maize contains a single lipoyl domain.

Thelen JJ, Muszynski MG, David NR, Luethy MH, Elthon TE, Miernyk JA, Randall DD.

J Biol Chem. 1999 Jul 30;274(31):21769-75.

11.

Cloning and molecular analyses of the Arabidopsis thaliana plastid pyruvate dehydrogenase subunits.

Johnston ML, Luethy MH, Miernyk JA, Randall DD.

Biochim Biophys Acta. 1997 Oct 20;1321(3):200-6.

13.

Purification, Characterization, and Submitochondrial Localization of a 58-Kilodalton NAD(P)H Dehydrogenase.

Luethy MH, Thelen JJ, Knudten AF, Elthon TE.

Plant Physiol. 1995 Feb;107(2):443-450.

14.

Purification, Characterization, and Submitochondrial Localization of the 32-Kilodalton NADH Dehydrogenase from Maize.

Knudten AF, Thelen JJ, Luethy MH, Elthon TE.

Plant Physiol. 1994 Nov;106(3):1115-1122.

15.
16.

Monoclonal Antibodies to the [alpha]- and [beta]-Subunits of the Plant Mitochondrial F1-ATPase.

Luethy MH, Horak A, Elthon TE.

Plant Physiol. 1993 Mar;101(3):931-937.

17.

Mitochondrial malate dehydrogenase from corn : purification of multiple forms.

Hayes MK, Luethy MH, Elthon TE.

Plant Physiol. 1991 Dec;97(4):1381-7.

18.

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