Biology Reference
In-Depth Information
Schoch S (1978) The esterification of chlorphyllide a in greening bean leaves. Z Naturforsch
33 c:712-714
Shedbalkar VP, Rebeiz CA (1992) Chloroplast biogenesis: determination of the molar extinction
coefficients of divinyl chlorophyll
a
and
b
and their pheophytins. Anal Biochem 207:261-266
Shedbalkar VP, Ioannides IM, Rebeiz CA (1991) Chloroplast biogenesis. Detection of monovinyl
protochlorophyll(ide)
b
in plants. J Biol Chem 266:17151-17157
Shemin D (1968) Mechanism and control of pyrrole synthesis. In: Goodwin GT (ed) Porphyrins
and related products. Academic, New York, pp 75-89
Shemin D, Kumin S (1952) The preparation of S-succinyl coenzyme A. J Biol Chem 198:827
Shemin D, Russel CS (1953) J Am Chem Soc 76:4873
Shemin D, Wittenberg J (1951) Location in protoporphyrin of the carbon atoms derived from the
alpha-carbon of glycine. J Biol Chem 192:315
Shibata K (1957) Spectroscopic studies on chlorophyll formation in intact leaves. J Biochem
44:147-172
Sironval C, Kuyper Y, Michel JM et al (1967) The primary photoact in the conversion of
protochlorophyllide into chlorophyllide. Stud Biophys 5:43-50
Smith JHC (1948) Protochlorophyll, precursor of chlorophyll. Arch Biochem 19:449-454
Smith JHC (1952) Yearb Carneg Inst 51:151
Smith JHC, Benitez A (1954) The effect of temperature on the conversion of protochlorophyll to
chlorophyll a in etiolated barley leaves. Plant Physiol 29:135-143
Smith JHC, Kupke DW (1956) Some properties of extracted protochlorophyll holochrome.
Nature 178:751-752
Smith BB, Rebeiz CA (1977) Spectrofluorometric determination of Mg-protoporphyrin monoester
and longer wavelength metalloporphyrins in the presence of Zn-protoporphyrin. Photochem
Photobiol 26:527-532
Stokes GG (1864) Proc R Soc 13:144
Tait GH, Gibson HD (1961) The enzymic formation of magnesium protoporphyrin monomethyl
ester. Biochim Biophys Acta 52:614-616
Tripathy BC, Rebeiz CA (1985) Chloroplast biogenesis. Quantitative determination of monovinyl
and divinyl Mg-protoporphyrins and protochlorophyll(ides) by spectrofluorometry. Anal
Biochem 149:43-61
Tripathy BC, Rebeiz CA (1986) Chloroplast biogenesis. Demonstration of the monovinyl and
divinyl monocarboxylic routes of chlorophyll biosynthesis in higher plants. J Biol Chem
261:13556-13564
Tripathy BC, Rebeiz CA (1988) Chloroplast biogenesis 60. Conversion of divinyl protochloro-
phyllide to monovinyl protochlorophyllide in green(ing) barley, a dark monovinyl/light divinyl
plant species. Plant Physiol 87:89-94
Tswett M (1906) Ber Deut Bot Ges 24:384
Verdeil F (1844) J Prakt Chem 33:478
Walker CJ, Mansfield KE, Rezzano IN et al (1988) The magnesium-protoporphyrin IX (oxidative)
cyclase system. Studies of the mechanism and specificity of the reaction sequence. Biochem J
255:685-692
Westall RG (1952) Isolation of porphobilinogen from the urine of a patient with acute porphyria.
Nature 170:614-616
Willstatter R, Asahina Y (1909) Ann Chem 373:227
Willsttater R, Stoll A (1910) Ann Chem 378:18
Willsttater R, Stoll A (1911) Ann Chem 387:317
Willsttater R, Stoll A (1913) Untersuchungen uber Chlorophyll. Springer, Berlin
Wolff JB, Price L (1957) Terminal steps of chlorophyll
a
biosynthesis in higher plants.
Arch Biochem Biophys 72:293-301
Wu SM, Rebeiz CA (1988) Chloroplast biogenesis. Molecular structure of short wavelength
chlorophyll a (E432 F662). Phytochemistry 27:353-356
Wu SM, Mayasich JM, Rebeiz CA (1989) Chloroplast biogenesis: quantitative determination of
monovinyl and divinyl chlorophyll(ide)
a
and
b
by spectrofluorometry. Anal Biochem
178:294-300
Search WWH ::
Custom Search