A novel group of oleosins is present inside the pollen of Arabidopsis.
about
Tapetosomes in Brassica tapetum accumulate endoplasmic reticulum-derived flavonoids and alkanes for delivery to the pollen surfaceBiogenesis and functions of lipid droplets in plants: Thematic Review Series: Lipid Droplet Synthesis and Metabolism: from Yeast to ManProteomic Analysis of Lipid Droplets from Arabidopsis Aging Leaves Brings New Insight into Their Biogenesis and Functions.Multifunctional acetyl-CoA carboxylase 1 is essential for very long chain fatty acid elongation and embryo development in Arabidopsis.Deterministic protein inference for shotgun proteomics data provides new insights into Arabidopsis pollen development and function.Senescence-inducible LEC2 enhances triacylglycerol accumulation in leaves without negatively affecting plant growth.Polycomb repressive complex 2 controls the embryo-to-seedling phase transition.Transcriptomes of the anther sporophyte: availability and usesConserved non-coding regulatory signatures in Arabidopsis co-expressed gene modules.Oleosin of subcellular lipid droplets evolved in green algae.Identification, classification and differential expression of oleosin genes in tung tree (Vernicia fordii).Evolution of oleosin in land plants.Two B3 domain transcriptional repressors prevent sugar-inducible expression of seed maturation genes in Arabidopsis seedlingsAcyl-lipid metabolism.Transcriptome analysis of Brassica napus pod using RNA-Seq and identification of lipid-related candidate genes.Endoplasmic reticulum, oleosins, and oils in seeds and tapetum cells.An Integrated Bioinformatics Analysis Reveals Divergent Evolutionary Pattern of Oil Biosynthesis in High- and Low-Oil PlantsSubcellular Lipid Droplets in Vanilla Leaf Epidermis and Avocado Mesocarp Are Coated with Oleosins of Distinct Phylogenic Lineages.Transcriptome analysis and identification of genes associated with ω-3 fatty acid biosynthesis in Perilla frutescens (L.) var. frutescensPerilipin family members preferentially sequester to either triacylglycerol-specific or cholesteryl-ester-specific intracellular lipid storage droplets.Comparisons of pollen coat genes across Brassicaceae species reveal rapid evolution by repeat expansion and diversificationTandem oleosin genes in a cluster acquired in Brassicaceae created tapetosomes and conferred additive benefit of pollen vigorComparative genomics of the lipid-body-membrane proteins oleosin, caleosin and steroleosin in magnoliophyte, lycophyte and bryophyte.Ectopic overexpression of castor bean LEAFY COTYLEDON2 (LEC2) in Arabidopsis triggers the expression of genes that encode regulators of seed maturation and oil body proteins in vegetative tissues.OsATG7 is required for autophagy-dependent lipid metabolism in rice postmeiotic anther developmentThe Pollen Coat Proteome: At the Cutting Edge of Plant ReproductionExpression of Camelina WRINKLED1 Isoforms Rescue the Seed Phenotype of the Arabidopsis wri1 Mutant and Increase the Triacylglycerol Content in Tobacco Leaves.Plant lipid bodies and cell-cell signaling: a new role for an old organelle?Peanut allergens: an overview.Ubiquitin-Mediated Proteasomal Degradation of Oleosins is Involved in Oil Body Mobilization During Post-Germinative Seedling Growth in Arabidopsis.The COMATOSE ATP-binding cassette transporter is required for full fertility in Arabidopsis.Specialization of oleosins in oil body dynamics during seed development in Arabidopsis seeds.Seed storage oil mobilization is important but not essential for germination or seedling establishment in Arabidopsis.Tobacco pollen tubes - a fast and easy tool for studying lipid droplet association of plant proteins.Expression and purification of peanut oleosins in insect cells.Storage reserve mobilisation and seedling establishment in Arabidopsis.Oleosin is bifunctional enzyme that has both monoacylglycerol acyltransferase and phospholipase activities.New features of triacylglycerol biosynthetic pathways of peanut seeds in early developmental stages.Unravelling a stearidonic acid-rich triacylglycerol biosynthetic pathway in the developing seeds of Buglossoides arvensis: A transcriptomic landscape.Acyl-lipid metabolism.
P2860
Q24669602-11CDAA09-D9B6-42AE-9B96-E0DF511C4566Q28732336-57CD286C-F565-4900-884A-3AE08EE55BA5Q30853815-144C2334-5B50-47D7-9D03-52B099C2170CQ33338683-8434BB6A-C7B3-46FC-B393-14DD8A99A827Q33471957-3AD4ECB1-D4F4-41C3-B17B-63AAF984DA30Q33739079-6E7706F5-64A5-4E27-A454-2FF0B7AC6A6EQ33851474-0018A4D8-8ED9-4DC0-890D-3D3C6E5F7A95Q33956720-1BFD53B2-3B4C-4304-86FB-F17BCEEAC534Q34425196-89B8817B-7E91-4702-B859-C207E6A64CC3Q34580563-07FC4866-D259-4FEB-97B1-3928260CFFD2Q35091739-7B468700-2EDF-4E3F-B690-064E185DB51FQ35221867-74703195-81AE-44F3-A606-040DEDBD477DQ35616751-24003EFE-0BB4-447F-A022-8E400D1EE322Q35630506-51E9D710-E44F-4902-920F-E4D53BF43FDAQ35820900-E1EFDD88-44D1-4D6E-AF49-8EBB53BE81E5Q35948434-12E809C3-591A-4F91-90B3-3E99E887F22CQ36012139-EAE0E71F-892B-4A15-B20C-98DAF67C0DA6Q36025130-8AFB4EE0-F946-4B70-9BF6-3DD04EFFF1BAQ36061336-02001BFC-55E0-4B64-8C22-D4978B3FC4D1Q36350836-3165A8D6-B4FB-4736-8411-2429CD936901Q36855319-A5569DD6-C8B7-4D5A-A020-69E8C6FD4829Q37143421-FAFF5987-29BC-494F-8552-32A9536DB3C0Q37319957-F1214187-8706-4E93-89E2-C9D41B64F280Q37393579-B2C52FAF-3494-46A1-9ED5-CE900762A30AQ37428811-1E1E22E4-C9C8-4602-B9D8-9210A54DA3D6Q37566431-947DCA6F-3066-409A-900D-4207C0CE866EQ37601343-4FF630F5-6E54-4D50-AED3-5C4B5515A782Q37953217-92F98E3D-B2A5-4836-B905-B46C64AF49F3Q38103611-1349AF33-9D4E-4C30-BDD7-022337AE479BQ38299520-F1FEF3E3-7D0D-4CB4-871E-E1963DE11159Q38302253-2D1CFB85-FFFD-4593-B4A7-F72A561EAB20Q38309012-DE2BECA4-F910-4836-B61C-923C72DEFC42Q38486640-91D0BE49-9E3F-4D47-A49D-67D2F1E0CE69Q39108691-427C5482-03A0-4A1C-8CDA-C2ACAD9A0C26Q39488074-367FED7A-D84E-4F5A-8F8E-60F2791FA0ACQ39932327-51FDB065-EE2A-452D-B3DC-999CC7A439B0Q40648925-D027814B-8202-4CEC-BEFF-BC687370BF94Q40839248-5D8FB922-630B-4989-ABAA-04019CBBAE39Q41621266-A8CB3C40-BF83-4FF6-A1D4-F2A14C21B52FQ42128281-F3B04B7A-DCFA-4B59-B389-B6038A64789E
P2860
A novel group of oleosins is present inside the pollen of Arabidopsis.
description
2002 nî lūn-bûn
@nan
2002 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
name
A novel group of oleosins is present inside the pollen of Arabidopsis.
@ast
A novel group of oleosins is present inside the pollen of Arabidopsis.
@en
A novel group of oleosins is present inside the pollen of Arabidopsis.
@nl
type
label
A novel group of oleosins is present inside the pollen of Arabidopsis.
@ast
A novel group of oleosins is present inside the pollen of Arabidopsis.
@en
A novel group of oleosins is present inside the pollen of Arabidopsis.
@nl
prefLabel
A novel group of oleosins is present inside the pollen of Arabidopsis.
@ast
A novel group of oleosins is present inside the pollen of Arabidopsis.
@en
A novel group of oleosins is present inside the pollen of Arabidopsis.
@nl
P2093
P2860
P356
P1476
A novel group of oleosins is present inside the pollen of Arabidopsis.
@en
P2093
Anthony H C Huang
Chandra Ratnayake
P2860
P304
22677-22684
P356
10.1074/JBC.M109298200
P407
P50
P577
2002-04-19T00:00:00Z