Handbook of Plant and Crop Physiology

236. ASN Reddy, F Safadi, SB Narasimhulu, M Golovkin, X Hu. A novel plant calmodulin-binding protein with a
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237. ASN Reddy, SB Narasimhulu, F Safadi, M Golovkin. A plant kinesin heavy chain–like protein is a calmod-
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238. ASN Reddy, SB Narasimhulu, IS Day. Structural organization of a gene encoding a novel calmodulin-binding
     kinesin-like protein from Arabidopsis. Gene 204:195–200, 1998.


239. VS Reddy, ASN Reddy. A plant calmodulin-binding motor is part kinesin and part myosin. Bioinformatics
     15:1055–1057, 1999.


240. ASN Reddy. Molecular motors and their functions plants. Intl Rev Cytol Cell Biol, in press.


241. ASN Reddy. A novel calcium/calmodulin-regulated microtubule motor protein from plants: role in trichome
     morphogenesis and cell division. In: SK Sopory, R Oelmuller, SC Maheswari, eds. Signal Transduction in
     Plants: Current Advances. New York: Kluwer Academic/Plenum, in press.


242. W Wang, D Takezawa, SB Narasimhulu, ASN Reddy, BW Poovaiah. A novel kinesin-like protein with a
     calmodulin-binding domain. Plant Mol Biol 31:87–100, 1996.


243. MC Gawienowski, RE Zielinski. Calmodulin isoforms differentially enhance the binding of cauliflower nu-
     clear proteins and recombinant TGA3 to a region derived from the ArabidopsisCaM-3 promoter. Plant Cell
     8:1069–1077, 1996.


244. Veena, VS Reddy, SK Sopory. Glyoxalase I from Brassica juncea: molecular cloning, regulation and its over-
     expression confer tolerance in transgenic tobacco under stress. Plant J 17:385–395, 1999.


245. J Espartero, I Sanchez-Aguayo, JM Pardo. Molecular characterization of glyoxalase-I from a higher plant; up-
     regulation by stress. Plant Mol Biol 29:1223–1233, 1995.


246. Y-T Lu, MAN Dharmasiri, HM Harrington. Characterization of a cDNA encoding a novel heat-shock protein
     that binds to calmodulin. Plant Physiol 108:1197–1202, 1995.


247. S Dash, W Niemaczura, HM Harrington. Characterization of the basic amphiphilic alpha-helix calmodulin-
     binding domain of a 61.5 kDa tobacco calmodulin-binding protein. Biochemistry 36:2025–2029, 1997.


248. S Muto, S Miyachi. Properties of a protein activator of NAD kinase from plants. Plant Physiol 59:55–60, 1977.


249. JM Anderson, H Charbonneau, HP Jones, RO McCann, MJ Cormier. Characterization of the plant nicoti-
     namide adenine dinucleotide kinase activator protein and its identification as calmodulin. Biochemistry
     19:3113–3120, 1980.


250. SH Lee, MC Kim, WD Heo, JC Kim, WS Chung, CY Park, HC Park, YH Cheong, CY Kim, SH Lee, KJ Lee,
     JD Bahk, SY Lee, MJ Cho. Competitive binding of calmodulin isoforms to calmodulin-binding proteins: im-
     plications for the function of calmodulin isoforms in plants. Biochim Biophys Acta 1433:56–67, 1999.


251. H Fromm, N-H Chua. Cloning of plant cDNAs encoding calmodulin-binding proteins using^35 S-labeled re-
     combinant calmodulin as a probe. Plant Mol Biol Rep 10:199–206, 1992.


252. AP Fordham-Skelton, F Safadi, M Golovkin, ASN Reddy. A non-radioactive method for isolating comple-
     mentary DNAs encoding calmodulin-binding proteins. Plant Mol Biol Rep 12:355–363, 1994.


253. B Liao, RE Zielinski. Production of recombinant plant calmodulin and its use to detect calmodulin-binding pro-
     teins. Methods Cell Biol 49:487–500, 1995.


254. H Lu, O Flores, R Weinmann, D Reinberg. The nonphosphorylated form of RNA polymerase II preferentially
     associates with the preinitiation complex. Proc Natl Acad Sci U S A 88:10004–10008, 1991.


255. ASN Reddy, D Takezawa, H Fromm, BW Poovaiah. Isolation and characterization of two cDNAs that encode
     for calmodulin-binding proteins from corn root tips. Plant Sci 94:109–117, 1993.


256. G Baum, Y Chen, T Arazi, H Takatsuji, H Fromm. A plant glutamate decarboxylase containing a calmodulin
     binding domain: cloning, sequence and functional analysis. J Biol Chem 268:19610–19617, 1993.


257. Y Lu, HM Harrington. Isolation of tobacco cDNA clones encoding calmodulin-binding proteins and charac-
     terization of a known calmodulin-binding domain. Plant Physiol Biochem 32:413–422, 1994.


258. T Arazi, R Sunkar, B Kaplan, H Fromm. A tobacco plasma membrane calmodulin-binding transporter confers
     Ni^2 tolerance and Pb^2 hypersensitivity in transgenic plants. Plant J 20:171–182, 1999.


259. MG Erlander, AJ Tobin. The structural and functional heterogeneity of glutamic acid decarboxylase: a review.
     Neurochem Res 16:215–226, 1991.


260. M Zik, T Arazi, WA Snedden, H Fromm. Two isoforms of glutamate decarboxylase in Arabidopsisare regu-
     lated by calcium/calmodulin and differ in organ distribution. Plant Mol Biol 37:967–975, 1998.


261. N Aurisano, A Betani, R Reggiani. Involvement of calcium and calmodulin in protein and amino-acid-
     metabolism in rice roots under anoxia. Plant Cell Physiol 36:1525–1529, 1995.


262. WA Snedden, T Arazi, H Fromm. Calcium/calmodulin activation of soybean glutamate decarboxylase. Plant
     Physiol 108:543–549, 1995.


263. A Bown, B Shelp. The metabolism and function of -aminobutyric acid. Plant Physiol 115:1–5, 1997.


264. V Satya Narayana, PM Nair. Metabolism enzymology and possible roles of 4-aminobutyric acid in higher
     plants. Phytochemistry 29:367–375, 1990.


265. AI Ramputh, AW Bown. Rapid -aminobutyric acid synthesis and the inhibition of the growth and develop-
     ment of oblique banded leaf-roller larvae. Plant Physiol 111:1349–1352, 1996.


266. W Wallace, J Secor, L Schrader. Rapid accumulation of gamma-aminobutyric acid and alanine in soybean
     leaves in response to an abrupt transfer to lower temperature, darkness, or mechanical manipulation. Plant
     Physiol 75:60–66, 1984.

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