Stephane T Gabilly
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Explore the profile of Stephane T Gabilly including associated specialties, affiliations and a list of published articles.
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11
Citations
637
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Recent Articles
1.
Das A, Subrahmanian N, Gabilly S, Andrianova E, Zhulin I, Motohashi K, et al.
Genetics
. 2023 Aug;
225(2).
PMID: 37595062
In plastids, conversion of light energy into ATP relies on cytochrome f, a key electron carrier with a heme covalently attached to a CXXCH motif. Covalent heme attachment requires reduction...
2.
Gabilly S, Baker C, Wakao S, Crisanto T, Guan K, Bi K, et al.
Proc Natl Acad Sci U S A
. 2019 Aug;
116(35):17556-17562.
PMID: 31405963
Photosynthetic organisms use nonphotochemical quenching (NPQ) mechanisms to dissipate excess absorbed light energy and protect themselves from photooxidation. In the model green alga , the capacity for rapidly reversible NPQ...
3.
Gabilly S, Hamel P
Front Plant Sci
. 2017 Aug;
8:1313.
PMID: 28798763
Cytochromes are hemoproteins, with the prosthetic group covalently linked to the apoprotein, which function as electron carriers. A class of cytochromes is defined by a CCH heme-binding motif where the...
4.
Kirst H, Gabilly S, Niyogi K, Lemaux P, Melis A
Planta
. 2017 Feb;
245(5):1009-1020.
PMID: 28188423
Evidence shows that decreasing the light-harvesting antenna size of the photosystems in tobacco helps to increase the photosynthetic productivity and plant canopy biomass accumulation under high-density cultivation conditions. Decreasing, or...
5.
Kromdijk J, Glowacka K, Leonelli L, Gabilly S, Iwai M, Niyogi K, et al.
Science
. 2016 Nov;
354(6314):857-861.
PMID: 27856901
Crop leaves in full sunlight dissipate damaging excess absorbed light energy as heat. When sunlit leaves are shaded by clouds or other leaves, this protective dissipation continues for many minutes...
6.
Karamoko M, Gabilly S, Hamel P
Front Plant Sci
. 2013 Dec;
4:476.
PMID: 24348486
Thiol oxidation to disulfides and the reverse reaction, i.e., disulfide reduction to free thiols, are under the control of catalysts in vivo. Enzymatically assisted thiol-disulfide chemistry is required for the...
7.
Gabilly S, Kropat J, Karamoko M, Page M, Nakamoto S, Merchant S, et al.
Genetics
. 2011 Jan;
187(3):793-802.
PMID: 21220358
In plastids, the conversion of energy in the form of light to ATP requires key electron shuttles, the c-type cytochromes, which are defined by the covalent attachment of heme to...
8.
Gabilly S, Dreyfuss B, Karamoko M, Corvest V, Kropat J, Page M, et al.
J Biol Chem
. 2010 Jul;
285(39):29738-49.
PMID: 20628047
The c-type cytochromes are metalloproteins with a heme molecule covalently linked to the sulfhydryls of a CXXCH heme-binding site. In plastids, at least six assembly factors are required for heme...
9.
Page M, Hamel P, Gabilly S, Zegzouti H, Perea J, Alonso J, et al.
J Biol Chem
. 2004 May;
279(31):32474-82.
PMID: 15159384
The c-type cytochromes are defined by the occurrence of heme covalently linked to the polypeptide via thioether bonds between heme and the cysteine sulfhydryls in the CXXCH motif of apocytochrome....
10.
Bernard D, Gabilly S, Dujardin G, Merchant S, Hamel P
J Biol Chem
. 2003 Sep;
278(50):49732-42.
PMID: 14514677
Heme attachment to the apoforms of fungal mitochondrial cytochrome c and c1 requires the activity of cytochrome c and c1 heme lyases (CCHL and CC1HL), which are enzymes with distinct...