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Items: 1 to 20 of 102

1.

Differential effects of ornithine enantiomers on the activity of anti-oxidant enzymes, polyamines content, and growth of tobacco cells under osmotic stresses.

Gholami M, Ghanati F, Fakhari AR, Yousefzadeh Borojeni L, Safari M.

Chirality. 2013 Oct;25(10):583-8. doi: 10.1002/chir.22173. Epub 2013 Jul 9.

PMID:
23836605
2.

Selective regulation of nicotine and polyamines biosynthesis in tobacco cells by enantiomers of ornithine.

Gholami M, Fakhari AR, Ghanati F.

Chirality. 2013 Jan;25(1):22-7. doi: 10.1002/chir.22107. Epub 2012 Sep 19.

PMID:
22996307
3.

Glutamate, Ornithine, Arginine, Proline, and Polyamine Metabolic Interactions: The Pathway Is Regulated at the Post-Transcriptional Level.

Majumdar R, Barchi B, Turlapati SA, Gagne M, Minocha R, Long S, Minocha SC.

Front Plant Sci. 2016 Feb 16;7:78. doi: 10.3389/fpls.2016.00078. eCollection 2016.

5.

Spermidine alleviates the growth of saline-stressed ginseng seedlings through antioxidative defense system.

Parvin S, Lee OR, Sathiyaraj G, Khorolragchaa A, Kim YJ, Yang DC.

Gene. 2014 Mar 1;537(1):70-8. doi: 10.1016/j.gene.2013.12.021. Epub 2013 Dec 21.

PMID:
24365592
6.

Transgenic manipulation of the metabolism of polyamines in poplar cells.

Bhatnagar P, Glasheen BM, Bains SK, Long SL, Minocha R, Walter C, Minocha SC.

Plant Physiol. 2001 Apr;125(4):2139-53.

7.

Metabolism of polyamines in transgenic cells of carrot expressing a mouse ornithine decarboxylase cDNA.

Andersen SC, Bastola DR, Minocha SC.

Plant Physiol. 1998 Jan;116(1):299-307.

8.

Ornithine-delta-aminotransferase is essential for arginine catabolism but not for proline biosynthesis.

Funck D, Stadelhofer B, Koch W.

BMC Plant Biol. 2008 Apr 17;8:40. doi: 10.1186/1471-2229-8-40.

9.

Transcriptional modulation of ethylene response factor protein JERF3 in the oxidative stress response enhances tolerance of tobacco seedlings to salt, drought, and freezing.

Wu L, Zhang Z, Zhang H, Wang XC, Huang R.

Plant Physiol. 2008 Dec;148(4):1953-63. doi: 10.1104/pp.108.126813. Epub 2008 Oct 22.

11.

Effect of heat stress on polyamine metabolism in proline-over-producing tobacco plants.

Cvikrová M, Gemperlová L, Dobrá J, Martincová O, Prásil IT, Gubis J, Vanková R.

Plant Sci. 2012 Jan;182:49-58. doi: 10.1016/j.plantsci.2011.01.016. Epub 2011 Feb 1.

PMID:
22118615
13.

Tobacco leaves and roots differ in the expression of proline metabolism-related genes in the course of drought stress and subsequent recovery.

Dobrá J, Vanková R, Havlová M, Burman AJ, Libus J, Storchová H.

J Plant Physiol. 2011 Sep 1;168(13):1588-97. doi: 10.1016/j.jplph.2011.02.009. Epub 2011 Apr 8.

PMID:
21481968
15.
16.

Polyamine synthesis from proline in the developing porcine placenta.

Wu G, Bazer FW, Hu J, Johnson GA, Spencer TE.

Biol Reprod. 2005 Apr;72(4):842-50. Epub 2004 Dec 1.

17.

An ornithine δ-aminotransferase gene OsOAT confers drought and oxidative stress tolerance in rice.

You J, Hu H, Xiong L.

Plant Sci. 2012 Dec;197:59-69. doi: 10.1016/j.plantsci.2012.09.002. Epub 2012 Sep 14.

PMID:
23116672
18.

Ornithine: the overlooked molecule in the regulation of polyamine metabolism.

Majumdar R, Shao L, Minocha R, Long S, Minocha SC.

Plant Cell Physiol. 2013 Jun;54(6):990-1004. doi: 10.1093/pcp/pct053. Epub 2013 Apr 9.

PMID:
23574701
19.
20.

Exogenous proline mitigates the detrimental effects of salt stress more than exogenous betaine by increasing antioxidant enzyme activities.

Hoque MA, Okuma E, Banu MN, Nakamura Y, Shimoishi Y, Murata Y.

J Plant Physiol. 2007 May;164(5):553-61. Epub 2006 May 2.

PMID:
16650912
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