- M Burnet, PJ Lafontaine, AD Hanson. Assay, purification, and partial characterization of choline monooxy-
genase from spinach. Plant Physiol 108:581–588, 1995. - B Rathinasabapathi, M Burnet, BL Russell, DA Gage, PC Liao, GJ Nye, P Scott, JH Golbeck, AD Hanson.
Choline monooxygenase, an unusual iron-sulfur enzyme catalyzing the first step of glycine betaine synthesis
in plants: prosthetic group characterization and cDNA cloning. Proc Natl Acad Sci U S A 94:3454–3458, 1997. - B Rathinasabapathi, M Burnet, B Russell, DA Gage, P Scott, JH Golbeck, AD Hanson. Metabolic engineering
of glycine betaine synthesis in plants: molecular cloning and characterization of choline monooxygenase from
spinach. Plant Physiol 114:109, 1997. - BL Russell, B Rathinasabapathi, AD Hanson. Osmotic stress induces expression of choline monooxygenase in
sugar beet and amaranth. Plant Physiol 116:859–865, 1998. - P Weigel, C Lerma, AD Hanson. Choline oxidation by intact spinach chloroplasts. Plant Physiol 86:54 – 60,
- SM Pan. Betaine aldehyde dehydrogenase in spinach. Bot Bull Acad Sin 29:255–263, 1988.
- KF McCue, AD Hanson. Salt inducible betaine aldehyde dehydrogenase from sugar beet: cDNA cloning and
expression. Plant Mol Biol 18:1–11, 1992. - B Rathinasabapathi, KF McCue, DA Gage, AD Hanson. Metabolic engineering of glycine betaine synthesis:
plant betaine aldehyde dehydrogenases lacking typical transit peptides are targeted to tobacco chloroplasts
where they confer betaine aldehyde resistance. Planta 193:155–162, 1994. - EM Valenzuela-Soto, RA Munoz-Clares. Betaine-aldehyde dehydrogenase from leaves of Amaranthus
hypochondriacusL. exhibits an iso ordered bi bi steady state mechanism. J Biol Chem 268:23818–23824,
- EM Valenzuela-Sol, RA Munoz-Clares. Purification and properties of betaine aldehyde dehydrogenas ex-
tracted from detached leaves of Amaranthus hypochondriacusL. subjected to water deficit. J Plant Physiol
143:145–152, 1994. - P Weigel, EA Weretilnyk, AD Hanson. Betaine aldehyde oxidation by spinach chloroplasts. Plant Physiol
82:753–759, 1986. - K Arakawa, T Takabe, T Sugiyama, T Akazawa. Purification of betaine-aldehyde dehydrogenase from spinach
leaves and preparation of its antibody. J Biochem 101:1485–1488, 1987. - EA Weretilnyk, AD Hanson. Betaine aldehyde dehydrogenase from spinach leaves: purification in vitro trans-
lation of the mRNA, and regulation by salinity. Arch Biochem Biophys 271:56–63, 1989. - PS Summers, EA Weretilyn. Choline synthesis in spinach in relation to salt stress. Plant Physiol
103:1269–1276, 1993. - CJ Coughlan, RG Wyn Jones. Glycinebetaine biosynthesis and its control in detached secondary leaves of
spinach. Planta 154:6–17, 1982. - EA Weretilnyk, DD Smith, GA Wilch, PS Summers. Enzymes of choline synthesis in spinach. Response of
phospho-baseN-methyltransferase activities to light and salinity. Plant Physiol 109:1085–1091, 1995. - SJ Coughlan, RG Wyn Jones. Some responses of Spinacia oleraceato salt stress. J Exp Bot 31:883–893, 1980.
- K Arakawa, K Mizuno, S Kishitani, T Takabe. Immunological studies of betaine aldehyde dehydrogenase in
barley. Plant Cell Physiol 33:833–840, 1992. - DJ Kushner. Life in high salt and solute concentrations: halophilic bacteria. In: DJ Kushner, ed. Microbial Life
in Extreme Environments. New York: Academic Press, 1978, pp 317–368. - LJ Borowitzka. Solute accumulation and regulation of cell water. In: LG Paleg, D Aspinall, eds. The Physiol-
ogy and Biochemistry of Drought Resistance in Plants. Sydney: Academic Press, 1981, pp 97–130. - Y Jolivet, J Haelin, F Larher. Osmoregulation in halophytic higher plant: the protective effects of glycinebe-
taine and other related sources against oxalate destabilization of membranes in beet root cells. Z Pflanzen-
physiol 109:171–230, 1983. - WJ Cram. The regulation of concentration and hydrostatic pressure in cells in relation to growth. Bull R Soc N
Z 12:183–189, 1975. - JH Crowe, LM Crowe, JF Carpenter, AS Rudolph, CA Wistrom, BJ Spargo, TJ Anchordoguy. Interactions of
sugars with membranes. Biochim Biophys Acta 974:367–372, 1988. - B Jacoby. Mechanisms involved in salt tolerance by plants. In: M. Pessarakli, ed. Handbook of Plant and Crop
Stress. New York: Marcel Dekker, 1994, pp 97–124. - JF Carpenter, JH Crowe. The mechanism of cryoprotection of proteins by solutes. Cryobiology 25:244– 255,
- GO Kist. Osmotic adjustment in phytoplankton and macroalgae. The use of dimethylsulfoniopropionate. In:
RP Kiene, PT Visscher, MD Keller, GO Kirst, eds. Biological and Environmental Chemistry of DMSP and Re-
lated Sulfonium Compounds. New York: Plenum, 1996, pp 121–129. - TJ Flowers, PF Troke, AR Yeo. The mechanism of salt tolerance in halophytes. Annu Rev Plant Physiol
28:89–121, 1977. - H Greenway, R Munns. Mechanisms of salt tolerance in non-halophytes. Annu Rev Plant Physiol 31:149–190,
- RG Wyn Jones, A Pollard. Proteins, enzymes and inorganic ions. In: A Lauchli, A Pirson, eds. Encyclopedia
of Plant Physiology. New Series, Vol 15B. Berlin: Springer, 1983, pp 528– 562.
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