Preparation and characterization of membrane fractions enriched in outer and inner envelope membranes from spinach chloroplasts. II. Biochemical characterization.
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Synthesis of chlorophyll b: localization of chlorophyllide a oxygenase and discovery of a stable radical in the catalytic subunitThe DEFECTIVE IN ANTHER DEHISCIENCE gene encodes a novel phospholipase A1 catalyzing the initial step of jasmonic acid biosynthesis, which synchronizes pollen maturation, anther dehiscence, and flower opening in ArabidopsisA rice plastidial nucleotide sugar epimerase is involved in galactolipid biosynthesis and improves photosynthetic efficiencyA dual positional specific lipoxygenase functions in the generation of flavor compounds during climacteric ripening of appleGain and loss of photosynthetic membranes during plastid differentiation in the shoot apex of Arabidopsis.Transcript profiling of cytokinin action in Arabidopsis roots and shoots discovers largely similar but also organ-specific responses.Transcriptional regulation of thylakoid galactolipid biosynthesis coordinated with chlorophyll biosynthesis during the development of chloroplasts in Arabidopsis.Studies of Lipid Monolayers Prepared from Native and Model Plant Membranes in Their Interaction with Zearalenone and Its Mixture with Selenium Ions.AT_CHLORO, a comprehensive chloroplast proteome database with subplastidial localization and curated information on envelope proteinsTwo types of MGDG synthase genes, found widely in both 16:3 and 18:3 plants, differentially mediate galactolipid syntheses in photosynthetic and nonphotosynthetic tissues in Arabidopsis thaliana.Tic20 forms a channel independent of Tic110 in chloroplasts.An ankyrin repeat domain of AKR2 drives chloroplast targeting through coincident binding of two chloroplast lipids.Topology of IEP110, a component of the chloroplastic protein import machinery present in the inner envelope membraneArabidopsis CHL27, located in both envelope and thylakoid membranes, is required for the synthesis of protochlorophyllide.The Plastid Outer Envelope - A Highly Dynamic Interface between Plastid and CytoplasmGalactolipid synthesis in chloroplast inner envelope is essential for proper thylakoid biogenesis, photosynthesis, and embryogenesis.Localization of phosphatidylcholine in outer envelope membrane of spinach chloroplasts.Light-Induced Changes in Fatty Acid Profiles of Specific Lipid Classes in Several Freshwater Phytoplankton SpeciesMode of action of the COR15a gene on the freezing tolerance of Arabidopsis thaliana.The biosynthesis of nitrogen-, sulfur-, and high-carbon chain-containing sugars.Chloroplast envelope membranes: a dynamic interface between plastids and the cytosol.Membranes as Structural Antioxidants: RECYCLING OF MALONDIALDEHYDE TO ITS SOURCE IN OXIDATION-SENSITIVE CHLOROPLAST FATTY ACIDS.Synthesis and transfer of galactolipids in the chloroplast envelope membranes of Arabidopsis thalianaMultiple reaction monitoring mass spectrometry is a powerful tool to study glycerolipid composition in plants with different level of desaturase activityDo thylakoids really contain phosphatidylcholine?Knock-out of the magnesium protoporphyrin IX methyltransferase gene in Arabidopsis. Effects on chloroplast development and on chloroplast-to-nucleus signaling.Role of membrane glycerolipids in photosynthesis, thylakoid biogenesis and chloroplast development.The thylakoid membranes of higher plant chloroplasts.Folding kinetics and structure of OEP16.Monogalactosyldiacylglycerol synthesis in the outer envelope membrane of chloroplasts is required for enhanced growth under sucrose supplementation.Two activities of long-chain acyl-coenzyme A synthetase are involved in lipid trafficking between the endoplasmic reticulum and the plastid in Arabidopsis.Phosphate deprivation induces transfer of DGDG galactolipid from chloroplast to mitochondriaComparison of glycerolipid biosynthesis in non-green plastids from sycamore (Acer pseudoplatanus) cells and cauliflower (Brassica oleracea) buds.Circadian regulation of the PhCCD1 carotenoid cleavage dioxygenase controls emission of beta-ionone, a fragrance volatile of petunia flowers.Dynamic Remodeling of the Plastid Envelope Membranes - A Tool for Chloroplast Envelope in vivo Localizations.Tight cohesion between glycolipid membranes results from balanced water-headgroup interactions.Tryptophan residues promote membrane association for a plant lipid glycosyltransferase involved in phosphate stress.Probing Arabidopsis chloroplast diacylglycerol pools by selectively targeting bacterial diacylglycerol kinase to suborganellar membranes.Arabidopsis Phosphatidic Acid Phosphohydrolases Are Essential for Growth under Nitrogen-Depleted Conditions.Monogalactosyldiacylglycerol deficiency in Arabidopsis affects pigment composition in the prolamellar body and impairs thylakoid membrane energization and photoprotection in leaves.
P2860
Q21261976-E2C360F2-0B4E-466D-B3CF-31D459E46D3AQ28361274-BC3D0445-75F9-4AA5-ABBA-BC7577F3AF01Q28476359-2F82538A-BBB4-4798-BCDE-E378A0987875Q28606719-7CB6BDFF-055B-4AFB-B1A8-91A4DD9D2489Q33353243-F47AC11E-4B1A-409C-A330-819D1B7F8B7FQ33353965-DAEF95A2-66C2-4E57-8DFF-9CEC16D563A3Q33737939-81BEF36A-8170-48C7-BFB8-9C17DA293608Q33849669-F26AD6B8-7518-4568-BD95-D9D63B393296Q33882999-A88DC0CD-FF2F-4C4D-AEBC-D5A390038F96Q33943995-A2CD6F33-FB7F-4F41-8754-6DCB8F2A6050Q34035982-FFFAC9E0-B202-4354-9CF2-03FB3018D9DAQ34221941-F6E18CEB-34A9-42C6-A731-2CD5213B4469Q34401988-F10126BA-FF65-4235-9332-6BB5A3EAA8F3Q34795846-A4FA4A8B-9202-4879-8EFB-9C412306F479Q35970195-498A41C6-A03F-4FDF-87A2-5C217EBA4077Q36089351-6158B593-6BC5-4323-8E2E-D256161EE393Q36213256-A6660E4A-AA8C-4A97-87E7-206585DF0A4EQ36689959-058B718A-0E71-4A10-B4E0-AC5ED6097B2CQ36739267-7B568595-22EF-4072-B7B0-581EAF612800Q36809121-EFF72174-F4C8-474D-B09F-2C42413CF72CQ36844786-224C2E97-8ADB-43A0-AA9E-725227570DACQ37065850-DC887526-5CC0-4C5E-9834-2EAE86E25640Q37281607-31C87513-8A73-4EE9-A10B-C1D7FFEE2CC9Q37534097-692FF1BD-D851-46BD-A735-A8F561FEAF86Q37657249-56A0C98A-990B-4340-9F32-20ACB47CCBA0Q38787575-7815DA93-5EC6-474F-A8A8-C862C7D0C9B6Q38817639-CAA33A27-96A0-4A82-AC4A-C6F17BF95E1FQ39754014-37CCC3F4-0666-4870-9A17-90824D13BBD4Q40274775-B3961045-CE96-4909-B35B-8D3AEAE9C3D7Q40988745-4D02D741-1062-4444-8F1D-0D2D0F058028Q41650257-31878019-BD4E-4C04-BAB0-33D7B5D5BE3EQ41856631-6D9F9D45-6877-42F8-868B-4C2C55339362Q41897945-15D9C805-CBE6-4BE1-A17A-1540C976A4DEQ42164225-1701D005-D752-422E-B421-A8BDD362348DQ42174846-ABFACD8E-A32C-488B-87DE-02471FED8547Q42292691-2ED86364-2C29-4D3B-8B46-5A72EF3E45A6Q42691721-BB9FC6CA-0DB4-4F03-AA59-B8386788699AQ45257951-E1376ABE-01D4-4E21-BC0E-BBAF28C9F33AQ46431632-DE1D7BF1-E741-4127-900A-2A74968F93EAQ46473290-E9CED4DB-8255-4E69-B104-110F8475776B
P2860
Preparation and characterization of membrane fractions enriched in outer and inner envelope membranes from spinach chloroplasts. II. Biochemical characterization.
description
1983 nî lūn-bûn
@nan
1983 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
1983 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
1983年の論文
@ja
1983年論文
@yue
1983年論文
@zh-hant
1983年論文
@zh-hk
1983年論文
@zh-mo
1983年論文
@zh-tw
1983年论文
@wuu
name
Preparation and characterizati ...... Biochemical characterization.
@ast
Preparation and characterizati ...... Biochemical characterization.
@en
Preparation and characterizati ...... Biochemical characterization.
@nl
type
label
Preparation and characterizati ...... Biochemical characterization.
@ast
Preparation and characterizati ...... Biochemical characterization.
@en
Preparation and characterizati ...... Biochemical characterization.
@nl
prefLabel
Preparation and characterizati ...... Biochemical characterization.
@ast
Preparation and characterizati ...... Biochemical characterization.
@en
Preparation and characterizati ...... Biochemical characterization.
@nl
P2093
P1476
Preparation and characterizati ...... Biochemical characterization.
@en
P2093
P304
13281-13286
P407
P577
1983-11-01T00:00:00Z