CRAWFORD LAB HOMEPAGE
PUBLICATIONS:
NITRATE UPTAKE, METABOLISM AND REGULATION:
Wang, R., X. Xing and N. Crawford (2007) Nitrite acts as
a transcriptome signal at micromolar concentrations in Arabidopsis
roots. Plant Physiol., 145: 1735-1745.
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reprint-PDF file.
Gutierrez,
R.A., M.L. Gifford, C. Poultney, R. Wang, D.E. Shasha,
G.M. Coruzzi and N.M. Crawford (2007) Insights into the
genomic nitrate response using genetics and the Sungear
Software System. J. Exp. Bot., 58: 2359-2367.
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reprint-PDF file.
Okamoto,
M., A. Kumar, W. Li, Y. Wang, M. Y. Siddiqi, N.M. Crawford
and A.D.M. Glass (2006) High-affinity nitrate transport
in roots of Arabidopsis thaliana depends on expression
of the NAR2-like gene AtNRT3.1. Plant Physiol.,
140: 1036-1046.
www.plantphysiol.org/cgi/content/full/140/3/1036
Wang,
R., R. Tischner, R.A. Gutierrez, M. Hoffman, X. Xing,
M. Chen, G. Coruzzi and N.M. Crawford (2004) Genomic
analysis of the nitrate response using a nitrate reductase-null
mutant of Arabidopsis. Plant Physiol. 136: 2512-2522.
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Unkles,
S.E., R. Wang, Y. Wang, A.D.M. Glass, N.M. Crawford and J.R.
Kinghorn (2004) Nitrate reductase activity is required for
nitrate uptake into fungal but not plant cells. J. Bio. Chem.,
279: 28182-28186.
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Wang, R., M.
Okamoto, X. Xing and N.M. Crawford (2003) Microarray analysis
of the nitrate response in Arabidopsis roots and shoots reveals
over one thousand rapidly responding genes and new linkages
to glucose, trehalose-6-P, iron and sulfate metabolism. Plant
Physiol., 132: 556-567.
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Guo,
F.-Q., J. Young and N.M. Crawford (2003) The nitrate transporter
AtNRT1.1 (CHL1) functions in stomatal opening and contributes
to drought susceptibility in Arabidopsis. Plant Cell, 15:107-117.
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file.
Crawford, N.M. and B.J. Forde (2002) Molecular and developmental
biology of inorganic nitrogen nutrition. In The Arabidopsis
Book, C. Somerville and E. Meyerowitz, eds., American Society
of Plant Physiologists, Rockville, MD., www.aspb.org/publications/arabidopsis/.
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Guo, F.-Q., R. Wang, and N.M. Crawford (2002) The Arabidopsis
dual-affinity nitrate transporter gene AtNRT1.1 (CHL1) is
regulated by auxin in both shoots and roots. J. Experimental
Botany, 53: 835-844.
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Guo, F.-Q., R. Wang, M. Chen and N.M. Crawford (2001) The Arabidopsis
dual-affinity nitrate transporter gene AtNRT1.1 (CHL1) is
activated and functions in nascent organ development during
vegetative and reproductive growth. Plant Cell, 13: 1761-1777.
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file.
Crawford,
N.M., M.L. Kahn, T. Leustek and S.R. Long (2000) Nitrogen
and Sulfur In: Biochemistry & Molecular Biology of Plants,
Buchanan, B., W. Gruissem and R.L. Jones, Eds. American Society
of Plant Physiologists, Rockville, MD., pp. 786-849.
Wang,
R., K. Guegler, S.T. LaBrie and N.M. Crawford (2000) Genomic
analysis of a nutrient response in Arabidopsis reveals diverse
expression patterns and novel metabolic and potential regulatory
genes that are induced by nitrate. Plant Cell 12: 1491-1510.
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Crawford,
N.M. and A.D.M. Glass (1998) Molecular and physiological aspects
of nitrate uptake in plants. Trends Plant Science, 3: 389-395.
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Chrispeels, M.J., N.M. Crawford and J.I. Schroeder (1999) Proteins
for transport of water and mineral nutrients across the membranes
of plan cells. Plant Cell, 11: 661-675.
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Kanamaru,
K., R. Wang, W. Su and N.M. Crawford (1998) Ser-534 in the
hinge 1 region of Arabidopsis nitrate reductase is conditionally
required for the binding of 14-3-3 proteins and the in vitro
inhibition of NR. J. Biol. Chem., 274: 4160-4165.
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file.
Su,
W., J.A. Mertens, K. Kanamaru, W.H. Campbell and N.M. Crawford
(1997) Analysis of wild-type and mutant plant nitrate reductase
expressed in the methylotrophic yeast Pichia pastoris. Plant
Physiol., 115: 1135-1143.
Wang, R., D. Liu and N.M. Crawford (1998) The Arabidopsis
CHL1 protein plays a major role in high affinity nitrate uptake.
Proc. Natl. Acad. Sci. USA, 95: 15134-15139.
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file.
Huang, N.-C., C.-S. Chiang, N.M. Crawford and Y.-F. Tsay (1996)
CHL1 encodes a component of the low-affinity nitrate uptake
system in Arabidopsis and shows cell type-specific expression
in roots. Plant Cell, 8: 2183-2191.
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reprint-PDF file.
Wang, R. and N.M. Crawford (1996). Genetic identification
of a gene involved in constitutive, high affinity, nitrate
transport in Arabidopsis thaliana. Proc. Natl. Acad.
Sci., 93: 9297-9301.
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file.
Su,
W., Huber, S.C. and N.M. Crawford (1996). Identification
in vitro of a post-translational regulatory site in the hinge
1 region of Arabidopsis nitrate reductase. Plant Cell,
8: 519-527.
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reprint-PDF file.
Crawford, N.M. (1995). Nitrate: Nutrient and signal
for plant growth. Plant Cell, 7: 859-868.
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reprint-PDF file.
Crawford, N.M. (1994). Metabolic and genetic control
of nitrate, phosphate and iron assimilation in plants
In: Arabidopsis, Somerville, C. & E. Meyerowitz,
eds. Cold Spring Harbor Laboratory Press, Cold Spring
Harbor, N.Y. pp. 1119-1146.
Crawford, N.M. and H.N. Arst (1993). Molecular genetics
of nitrate assimilation in fungi and plants. Annu. Rev.
Genet., 27: 115-146.
LaBrie, S.T. and N.M. Crawford (1994). A glycine
to aspartic acid change in the MoCo domain of nitrate reductase
reduces both activity and phosphorylation levels in Arabidopsis.
J. Biol. Chem., 269: 14497-14501.
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reprint-PDF file.
Wilkinson, J.Q. and N.M. Crawford. (1993). Identification
and characterization of a chlorate resistant mutant of Arabidopsis
with mutations in both NIA1 and NIA2 nitrate reductase structural
genes. Mol. Gen. Genet. 239: 289-297
Tsay, Y.-F., J.I. Schroeder, K.A. Feldmann and N.M. Crawford.
(1993). The herbicide sensitivity gene CHL1 of Arabidopsis
encodes a nitrate-inducible nitrate transporter. Cell
72: 705-713.
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reprint-PDF file.
LaBrie,
S.T., J.Q. Wilkinson, Y.-F. Tsay, K.A. Feldmann and N.M. Crawford.
(1992). Identification of two tungstate-sensitive molybdenum
cofactor mutants, chl2 and chl7, of Arabidopsis thaliana.
Mol. Gen. Genet. 233: 169-176.
Hyde,
G.E., N.M. Crawford and W.H. Campbell. (1992). The sequence
of squash NADH: nitrate reductase and its relationship to
the sequences of other flavoprotein oxidoreductases: A family
of flavoprotein pyridine nucleotide cytochrome reductases.
J. Biol. Chem. 266: 23542-23547.
Crawford,
N.M., J.Q. Wilkinson and S.T. LaBrie. (1992). Metabolic control
of nitrate reduction in Arabidopsis thaliana. Australian
J. Plant Physiol. 19: 377-385.
Crawford,
N.M. (1992). Study of chlorate-resistant mutants of Arabidopsis:
Insights into nitrate assimilation and ion metabolism of plants.
In: Genetic Engineering Principles and Methods, Vol. 14. Setlow,
J., ed. Plenum Press, New York. pp. 89-99.
LaBrie,
S.T., J.Q. Wilkinson and N.M. Crawford. (1991). Effect of
chlorate treatment on nitrate reductase and nitrite reductase
gene expression in Arabidopsis thaliana. Plant Physiol.
97: 873-879.
Wilkinson,
J. and N.M. Crawford. (1991). Identification of the Arabidopsis
CHL3 gene as the nitrate reductase structural gene NIA2.
Plant Cell 3: 461-471.
Crawford,
N.M. and W.H. Campbell. (1990). Fertile fields. Plant
Cell 2: 829-835.
Crawford,
N.M. and R.W. Davis. (1989). Molecular analysis of nitrate
regulation of nitrate reductase in squash and Arabidopsis.
In: Molecular and Genetic Aspects of Nitrate Assimilation.
Wray, J.L. and J.R. Kinghorn, eds. Oxford Science Publ. pp.
328-340.
Crawford,
N.M. and R.W. Davis. (1988). Plant nitrate reductase is a
tripartite electron transfer protein that belongs to the cytochrome
b5 superfamily of enzymes. In: Current Topics in Plant
Biochemistry and Physiology, Vol. 7. Blevins, D.G. and W.H.
Campbell, eds. University of Missouri-Columbia Press. pp.
16-25.
Crawford,
N.M., M. Smith, D. Bellissimo and R.W. Davis. (1988). Sequence
and nitrate regulation of the Arabidopsis thaliana mRNA encoding
nitrate reductase: A metalloflavoprotein with three functional
domains. Proc. Natl. Acad. Sci. USA 85: 5006-5010.
Crawford,
N.M., W.H. Campbell and R.W. Davis. (1986). Nitrate reductase
from squash: cDNA cloning and nitrate regulation. Proc.
Natl. Acad. Sci. USA 83: 8073-8076.
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