DAG, a gene required for chloroplast differentiation and palisade development in Antirrhinum majus. - Wikidata - wikimedia - TriplyDB

DAG, a gene required for chloroplast differentiation and palisade development in Antirrhinum majus.

DAG, a gene required for chloroplast differentiation and palisade development in Antirrhinum majus.

http://www.wikidata.org/entity/Q41076621

about

The Arabidopsis immutans mutation affects plastid differentiation and the morphogenesis of white and green sectors in variegated plants Sucrose export defective1 encodes a novel protein implicated in chloroplast-to-nucleus signaling Pattern dynamics in adaxial-abaxial specific gene expression are modulated by a plastid retrograde signal during Arabidopsis thaliana leaf development A viroid RNA with a specific structural motif inhibits chloroplast development.Cell and plastid division are coordinated through the prereplication factor AtCDT1 Functional divergence and origin of the DAG-like gene family in plants.MutMap+: genetic mapping and mutant identification without crossing in rice.Inhibitor of striate conditionally suppresses cell proliferation in variegated maize.Multiple organellar RNA editing factor (MORF) family proteins are required for RNA editing in mitochondria and plastids of plants.RIP1, a member of an Arabidopsis protein family, interacts with the protein RARE1 and broadly affects RNA editing.RNA Sequencing Analysis of the msl2msl3, crl, and ggps1 Mutants Indicates that Diverse Sources of Plastid Dysfunction Do Not Alter Leaf Morphology Through a Common Signaling Pathway.Efficient gene tagging in Arabidopsis thaliana using a gene trap approach.The translational apparatus of plastids and its role in plant development The Arabidopsis plastid-signalling mutant gun1 (genomes uncoupled1) shows altered sensitivity to sucrose and abscisic acid and alterations in early seedling development.Arabidopsis variegation mutants.Arabidopsis ANGULATA10 is required for thylakoid biogenesis and mesophyll development A 125 kDa RNase E/G-like protein is present in plastids and is essential for chloroplast development and autotrophic growth in Arabidopsis.The phosphoenolpyruvate/phosphate translocator is required for phenolic metabolism, palisade cell development, and plastid-dependent nuclear gene expression.Dual role for fimbriata in regulating floral homeotic genes and cell division in Antirrhinum.Nucleotide depletion and chloroplast division.The Arabidopsis organelle-localized glycyl-tRNA synthetase encoded by EMBRYO DEFECTIVE DEVELOPMENT1 is required for organ patterning.Tobacco VDL gene encodes a plastid DEAD box RNA helicase and is involved in chloroplast differentiation and plant morphogenesis.Microspore embryogenesis: assignment of genes to embryo formation and green vs. albino plant production.CHLOROPLAST BIOGENESIS genes act cell and noncell autonomously in early chloroplast development.Chloroplast photooxidation-induced transcriptome reprogramming in Arabidopsis immutans white leaf sectors.Mutations in SUPPRESSOR OF VARIEGATION1, a factor required for normal chloroplast translation, suppress var2-mediated leaf variegation in Arabidopsis.Tie-dyed2 functions with tie-dyed1 to promote carbohydrate export from maize leaves.The role of diglycosyl lipids in photosynthesis and membrane lipid homeostasis in Arabidopsis.Stable transcription activities dependent on an orientation of Tam3 transposon insertions into Antirrhinum and yeast promoters occur only within chromatin.The rice zebra3 (z3) mutation disrupts citrate distribution and produces transverse dark-green/green variegation in mature leaves.An Uncharacterized Apocarotenoid-Derived Signal Generated in ζ-Carotene Desaturase Mutants Regulates Leaf Development and the Expression of Chloroplast and Nuclear Genes in Arabidopsis.tie-dyed1 Regulates carbohydrate accumulation in maize leaves.The SCABRA3 nuclear gene encodes the plastid RpoTp RNA polymerase, which is required for chloroplast biogenesis and mesophyll cell proliferation in Arabidopsis.Nucleoid-enriched proteomes in developing plastids and chloroplasts from maize leaves: a new conceptual framework for nucleoid functions.Experimental analysis of the Arabidopsis mitochondrial proteome highlights signaling and regulatory components, provides assessment of targeting prediction programs, and indicates plant-specific mitochondrial proteins Inhibition of phenolic acid metabolism results in precocious cell death and altered cell morphology in leaves of transgenic tobacco plants Genetic mapping of ovary colour and quantitative trait loci for carotenoid content in the fruit of Duchesne

P2860

Q28351006-638C4465-6F36-461C-8C74-D1CE5EF9B6D0 Q28364438-4CED1E93-76D3-4E6A-B926-DCF7387A6790 Q28534845-4563A8D7-3419-4994-B617-A528F94DDED8 Q33344907-D346CB11-8F1A-4A86-8F12-63E9060D609E Q33852165-07197A71-99C1-4710-8B50-243923B1D865 Q33915779-42F88B49-B627-4B17-8C4E-8C8544047AD2 Q34849190-A1CE98BC-05AE-4A2E-A8D4-629C3DFD773C Q35191469-E4920269-02B8-46A7-A8A5-120EED8178DD Q35882490-6E1C71C3-7440-4222-AB60-EE8BE8AA33C9 Q36001257-0C350ACC-7689-4EBD-8B78-E4C118903A52 Q36391973-FBEA3AE5-561A-4616-B3AD-7D31981D3774 Q36830627-27C7C021-DA33-4B54-A4E5-FDBD023F4B54 Q38192822-2D66F387-5CFD-475D-928F-64D153D9DAF4 Q38342708-CB99DBA9-2723-4057-A4BF-82FFEDA12BFE Q39931944-F896C37A-5DF6-436A-B5BB-C25490D35D2B Q40003455-8BCF2F6C-4E14-49F0-BADA-31B0C73FE0FF Q40988533-B3F07A65-6729-44C2-8656-AB8AE52C62E5 Q41690602-560E296F-DB00-4848-A018-A20C88F8A412 Q41821649-8D073F77-BDCC-49D0-BF3C-48ABAA455519 Q41889013-DCE735C3-3B31-4F1E-B188-CF55D8BE4B3A Q42321909-11164285-0377-48A0-A53E-DE14FF99B18C Q42637967-EEE1527F-34DC-48F9-BF36-C2302E5331EA Q43107218-9D946931-4351-4A10-A143-46EBFB9AFAE5 Q44888219-D39A428A-5EE7-4788-AFDE-3405D8FFC2C4 Q46040361-B0D336D6-B6FB-4A67-AC0D-94817D62DDC1 Q46503233-DE06FE1B-5C62-4044-8B17-7CAC0CFF7C36 Q46792324-FF646AF0-87BD-4312-BE18-0FA82041F234 Q47915360-3FEFF499-4C2F-4060-A9E3-6EC25AC5447E Q48067912-B641ACF1-F74E-4FDA-956F-5DD67870FA3F Q48300240-BAD9E987-8FAB-42A3-A420-6BED966A9B50 Q50657141-EBDADD85-3703-4E2F-BDF0-10041D35AB17 Q50710008-D6FE05B5-0AC4-4B13-927D-33D0155D252B Q50730522-845B87E2-D382-4DED-A7B9-81775AC9979F Q51848166-3D0B26F0-A4D1-420B-A524-8629D96ED280 Q56029136-1B6CD320-5AEC-4C1B-B0D6-A917E2A50023 Q58321098-8A9470E4-16FC-4AF2-A650-8183ED47AD4E Q58700323-49DCCDFC-7918-4D32-B52C-AB309EAC6967

P2860

DAG, a gene required for chloroplast differentiation and palisade development in Antirrhinum majus.

http://www.wikidata.org/entity/Q41076621

description

1996 nî lūn-bûn

@nan

1996年の論文

@ja

1996年学术文章

@wuu

1996年学术文章

@zh-cn

1996年学术文章

@zh-hans

1996年学术文章

@zh-my

1996年学术文章

@zh-sg

1996年學術文章

@yue

1996年學術文章

@zh

1996年學術文章

@zh-hant

name

DAG, a gene required for chlor ...... elopment in Antirrhinum majus.

@en

type

label

DAG, a gene required for chlor ...... elopment in Antirrhinum majus.

@en

prefLabel

DAG, a gene required for chlor ...... elopment in Antirrhinum majus.

@en

P1433

Q41076621-65A02BEE-FC3F-4ACF-9315-60A48DBE03EA

P1476

Q41076621-53A8CC78-5A07-43DC-9F0C-8C16410261B7

P2093

Q41076621-1BC0743C-35BB-47B6-9535-93E9BBA66B1C

Q41076621-443811E3-2E2F-4820-AF51-1819182E7F8E

Q41076621-4FB1C6B3-0E45-4E4B-B026-2B5DFE16913A

Q41076621-61CE2241-0CA7-41FC-AB60-03F682E30A7E

Q41076621-706BD54A-9C60-432A-BEAB-DC6C0A92A46B

Q41076621-ECC47F8D-23A3-4FAE-9066-159DFF68A4DC

P2860

Q41076621-20001F03-FE18-4A4C-B043-5059457E6E4F

Q41076621-3DDE7489-8E1B-4F48-A077-1C00E234A82A

Q41076621-4CB624AF-904D-4618-9583-8E545C3CEF22

Q41076621-52819F7B-8A03-49B4-B4E4-32D274C20CC8

Q41076621-5FC74E34-6BAD-40F1-96EA-EC77C3283C17

Q41076621-6E610536-5ADB-4651-88AC-2F348902F460

Q41076621-747383A9-8B8A-4081-8C13-0B4D7DED1D27

Q41076621-8758F5AC-C1D9-4267-AED8-719C5BF7EDAE

Q41076621-8E01A807-11B6-4ED8-828E-3F65832F3711

Q41076621-906B1F77-A9E2-42E0-B531-8AE20704C9E3

P304

Q41076621-F85F5152-A37B-4F8C-8874-2CDA0C4B7D2E

P31

Q41076621-07ED812F-90CC-4A4A-B3DC-F0D4AE3A0C65

P356

Q41076621-209AD714-9870-4A26-BFB9-91E6E8BBAE62

P407

Q41076621-C8318678-E3CE-4635-8410-A9D8DB1409C4

P433

Q41076621-5FD0CD32-9865-4142-97C5-4031DD2E0A66

P478

Q41076621-606AD290-48C6-4498-8F59-84F75FE53AFC

P577

Q41076621-7C6921AC-DB15-41F9-96E8-27C47A65ED9B

P698

Q41076621-10D42938-0983-4F4E-A6EE-A8EF2A1ED823

P932

Q41076621-C94DBF48-12C4-4897-8C2F-9BFEF29028DD

P356

J.1460-2075.1996.TB00794.X

P1433

The EMBO Journal

P1476

DAG, a gene required for chlor ...... velopment in Antirrhinum majus

@en

P2093

Chatterjee M

http://www.w3.org/2001/XMLSchema#string

Edmunds C

http://www.w3.org/2001/XMLSchema#string

Findlay K

http://www.w3.org/2001/XMLSchema#string

Garosi P

http://www.w3.org/2001/XMLSchema#string

Martin C

http://www.w3.org/2001/XMLSchema#string

Sparvoli S

http://www.w3.org/2001/XMLSchema#string

P2860

The complete nucleotide sequence of the tobacco chloroplast genome: its gene organization and expression.

Introduction of a Chimeric Chalcone Synthase Gene into Petunia Results in Reversible Co-Suppression of Homologous Genes in trans

Basic local alignment search tool

A comprehensive set of sequence analysis programs for the VAX

A simple method for displaying the hydropathic character of a protein

Compilation and analysis of sequences upstream from the translational start site in eukaryotic mRNAs

Supercoil sequencing: a fast and simple method for sequencing plasmid DNA

Possible role of flanking nucleotides in recognition of the AUG initiator codon by eukaryotic ribosomes

Control of leaf and chloroplast development by the Arabidopsis gene pale cress.

Molecular cloning and characterization of iojap (ij), a pattern striping gene of maize.

P304

4194-4207

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1002/J.1460-2075.1996.TB00794.X

http://www.w3.org/2001/XMLSchema#string

P407

P433

16

http://www.w3.org/2001/XMLSchema#string

P478

15

http://www.w3.org/2001/XMLSchema#string

P577

1996-08-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P698

8861948

http://www.w3.org/2001/XMLSchema#string

P932

452143

http://www.w3.org/2001/XMLSchema#string