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Jensen PE, Gibson LCD, Henningsen KW et al (1995) Expression of the
chlI, chlD
and
chlH
genes
from the cyanobacterium
Synechocystis
PCC6803 in
Escherichia coli
and demonstration
that the three cognate proteins are required for magnesium-protoporphyrin chelatase activity.
J Biol Chem 271(28):1662-1667
Jones OTG (1963) The inhibition of bacteriochlorophyll biosynthesis in
Rhodopseudomonas
spheroides
by 8-hydroxyquinoline. Biochem J 88:335-343
Jones OTG (1966) A protein-protochlorophyll complex obtained from inner seed coats of
Cucurbita pepo
. Biochem J 101:153-160
Jope EM, O'Brion JR (1945) Spectral absorption properties and fluorescence of coproporphyrin I
and III and the melting point of their tetramethyl esters. Biochem J 39:239-245
Jordan PM, Seehra JS (1979) The biosynthesis of uroporphyrinogen III: order of assembly of
the four porphobilinogen molecules in the formation of the tetrapyrrole ring. FEBS Lett
104:364-366
Katz JJ, Closs GL, Pennington FC et al (1963) Infrared spectra of methyl chlorophyllides and
pheophytins in various solvents. J Am Chem Soc 85:3801
Kim JS, Rebeiz CA (1996) Origin of the chlorophyll
a
biosynthetic heterogeneity in higher plants.
J Biochem Mol Biol 29:327-334
Kolossov VL, Kopetz KJ, Rebeiz CA (2003) Chloroplast biogenesis 87: evidence of resonance
excitation energy transfer between tetrapyrrole intermediates of the chlorophyll biosynthetic
pathway and chlorophyll
a
. Photochem Photobiol 78:184-196
Kopetz KJ, Kolossov VL, Rebeiz CA (2004) Chloroplast biogenesis 89: development of analytical
tools for probing the biosynthetic topography of photosynthetic membranes by determination
of resonance excitation energy transfer distances separating metabolic tetrapyrrole donors from
chlorophyll
a
acceptors. Anal Biochem 329:207-219
Koski VM (1950) Chlorophyll formation in seedlings of
Zea mays
L. Arch Biochem 29:339-343
Koski VM, Smith JHC (1948) The isolation and spectral absorption properties of protochlorophyll
from etiolated barley seedlings. J Am Chem Soc 70:3558-3562
Kuster W (1913) Z Physiol Chem 82:463-483
Lipson RL, Baldes EJ, Olsen AM (1961) Hematoporphyrin-derivative fluorescence in malignant
neoplasms. J Natl Cancer Inst 26:1-11
Manning WM, Strain HH (1943) Chlorophyll
d
, a green pigment of red algae. J Biol Chem 151:1
Mattheis JR, Rebeiz CA (1977a) Chloroplast biogenesis. Net synthesis of protochlorophyllide from
magnesium protoporphyrin monoester by developing chloroplasts. J Biol Chem 252:4022-4024
Mattheis JR, Rebeiz CA (1977b) Chloroplast biogenesis. Net synthesis of protochlorophyllide
from protoporphyrin IX by developing chloroplasts. J Biol Chem 252:8347-8349
Mauzerall D, Granick S (1958) Porphyrin biosynthesis in erythrocytes. III. Uroporphyrinogen and
its decarboxylation. J Biol Chem 232:1141-1162
McCarthy SA, Belanger FC, Rebeiz CA (1981) Chloroplast biogenesis: detection of a magnesium
protoporphyrin diester pool in plants. Biochemistry 20:5080-5087
McCarthy SA, Mattheis JR, Rebeiz CA (1982) Chloroplast biogenesis: biosynthesis of
protochlorophyll(ide) via the acidic and fully esterified biosynthetic branches in higher plants.
Biochemistry 21:242-247
Monteverde NA (1893) Acta Horti Petrolitani 13:148
Muir HM, Neuberger A (1949) The biogenesis of porphyrins. The distribution of
15
N in the ring
system. Biochem J 45:163
Nencki M (1896) Ber Deut Chem Ges 29:2877
Neve RA, Labbe RF (1956) Reduced uroporphyrinogen III in the biosynthesis of heme.
J Am Chem Soc 78:691-692
Noack K, Kiessling W (1929) Z Physiol Chem 182:13
Noack K, Kiessling W (1930) Z Physiol Chem 182:97
Noack K, Scneider E (1933) Naturwisswnchaften 21:835
Pardo AD, Chereskin BM, Castelfranco PA et al (1980) ATP requirement for Mg chelatase in
developing chloroplasts. Plant Physiol 65:956-960
Parham R, Rebeiz CA (1992) Chloroplast biogenesis: [4-vinyl] chlorophyllide
a
reductase is a
divinyl chlorophyllide
a
-specific NADPH-dependent enzyme. Biochemistry 31:8460-8464
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