The intracellular fate of a recombinant protein is tissue dependent. - Wikidata - wikimedia - TriplyDB

The intracellular fate of a recombinant protein is tissue dependent.

The intracellular fate of a recombinant protein is tissue dependent.

http://www.wikidata.org/entity/Q46553782

about

The dynamic behavior of storage organelles in developing cereal seeds and its impact on the production of recombinant proteins Ubiquitin fusion expression and tissue-dependent targeting of hG-CSF in transgenic tobacco.Aberrant localization and underglycosylation of highly accumulating single-chain Fv-Fc antibodies in transgenic Arabidopsis seeds.Expression pattern of the alpha-kafirin promoter coupled with a signal peptide from Sorghum bicolor L. Moench Increasing the production yield of recombinant protein in transgenic seeds by expanding the deposition space within the intracellular compartment Rice endosperm is cost-effective for the production of recombinant griffithsin with potent activity against HIV.{alpha}' Subunit of soybean {beta}-conglycinin forms complex with rice glutelin via a disulphide bond in transgenic rice seeds.Biopharmaceuticals from plants: a multitude of options for posttranslational modifications.The formation, function and fate of protein storage compartments in seeds.Using storage organelles for the accumulation and encapsulation of recombinant proteins.Trafficking of endoplasmic reticulum-retained recombinant proteins is unpredictable in Arabidopsis thaliana.Non-food/feed seeds as biofactories for the high-yield production of recombinant pharmaceuticals.Recombinant protein yield in rice seed is enhanced by specific suppression of endogenous seed proteins at the same deposit site.A fluorescent reporter protein containing AtRMR1 domains is targeted to the storage and central vacuoles in Arabidopsis thaliana and tobacco leaf cells.Rice endosperm produces an underglycosylated and potent form of the HIV-neutralizing monoclonal antibody 2G12.High accumulation in tobacco seeds of hemagglutinin antigen from avian (H5N1) influenza.The Quest to Understand the Basis and Mechanisms that Control Expression of Introduced Transgenes in Crop Plants.A bacterial signal peptide is functional in plants and directs proteins to the secretory pathway.The changing fate of a secretory glycoprotein in developing maize endosperm.A green fluorescent protein fused to rice prolamin forms protein body-like structures in transgenic rice.Efficient recovery of recombinant proteins from cereal endosperm is affected by interaction with endogenous storage proteins.Update on the use of transgenic rice seeds in oral immunotherapy.Plant species and organ influence the structure and subcellular localization of recombinant glycoproteins.In vivo intracellular pH measurements in tobacco and Arabidopsis reveal an unexpected pH gradient in the endomembrane system.ER stress response induced by the production of human IL-7 in rice endosperm cells.Accumulation of functional recombinant human coagulation factor IX in transgenic soybean seeds.Overcoming low yields of plant-made antibodies by a protein engineering approach.Rice

P2860

Q26853066-5F4466A7-CFD4-41F0-B14C-9AB34D22492E Q34045484-0269F979-9E0E-4C80-8322-0106A135725E Q35611679-4224B86C-A679-44CE-BD20-7598122E9C54 Q35725472-E7200172-1476-498E-8325-04066F09F1C8 Q36891996-715F8717-DA12-4188-B95C-48C74432DDFD Q36896705-FBDE838F-A20D-46DD-B659-D6A66AFC7D29 Q37370092-D8317257-37B9-4122-8760-9BA676A2CE3E Q37853856-CE0B118E-FF70-4ED2-8711-BD617E52C83D Q37879991-CB75CEAE-4604-4C6E-AFBC-038ACF8555FD Q37991273-4EF2AD0E-57DD-42D1-9AC5-A3083E3FFF48 Q38259569-DAE63887-4620-4B37-9679-D621652D1FC6 Q39560841-DF392F77-385F-4F8B-ADEE-37C609D179A6 Q39571255-F793FA6E-C381-424C-A17E-5631FE1D0DB2 Q39746797-2A65D52F-6ECB-4ACA-80E5-696CF18922C0 Q41111458-65AF61D6-7CB9-4671-98D8-F84DD87CF147 Q41922535-14416147-1E23-44E1-89BC-2D5CFF0FE9F4 Q42128941-23E1BCB6-D1CA-4F56-8407-C62C4176A2F4 Q43073298-629B104A-8A32-49B5-AB94-AFFBD385696C Q43101037-D312226E-B524-4612-A5F4-48967816588D Q43168400-A19FD08C-422F-44FA-B2D0-FC2963A400CF Q44704323-F99CEEAB-EFC0-471C-ADF9-7F1A99714F4D Q44899322-5EFC5BA6-A357-4C65-9277-30C883D692AA Q45021927-444D7E37-1741-4F61-BCB3-516B86C09CDE Q45146088-A2FFB7A3-2A92-4A5B-900D-A3CC3B77FFE8 Q45342855-660F508C-B308-413F-BFC7-52CA9E9CCA84 Q45932052-DAFED06D-419D-45B3-8B0B-05432AF05346 Q50905901-9F97B270-FFFE-49B5-8C05-63517D362E09 Q57540063-C93803E4-5C79-4E07-A3A8-48FAE2D6B89E

P2860

The intracellular fate of a recombinant protein is tissue dependent.

http://www.wikidata.org/entity/Q46553782

description

2006 nî lūn-bûn

@nan

2006年の論文

@ja

2006年学术文章

@wuu

2006年学术文章

@zh

2006年学术文章

@zh-cn

2006年学术文章

@zh-hans

2006年学术文章

@zh-my

2006年学术文章

@zh-sg

2006年學術文章

@yue

2006年學術文章

@zh-hant

name

The intracellular fate of a recombinant protein is tissue dependent.

@en

The intracellular fate of a recombinant protein is tissue dependent.

@nl

type

label

The intracellular fate of a recombinant protein is tissue dependent.

@en

The intracellular fate of a recombinant protein is tissue dependent.

@nl

prefLabel

The intracellular fate of a recombinant protein is tissue dependent.

@en

The intracellular fate of a recombinant protein is tissue dependent.

@nl

P1433

Q46553782-256D3355-13CD-4E9B-A230-3C22EA5E0341

P1476

Q46553782-F76CF593-76A9-49A2-AE87-78D9258F44BE

P2093

Q46553782-12E484B4-70B1-46B0-992A-A056EFE84C54

Q46553782-3BD5F4FA-8CEF-437A-B0E6-DF97B29AA239

Q46553782-D0534C36-193D-45A8-B84D-D18A116858FC

Q46553782-D994DEAF-9DBA-401F-81E5-6A7FAE244B72

Q46553782-DA5228AE-2087-4F30-A975-0751CF65E44D

P2860

Q46553782-0277D108-0D9D-45A4-ABD8-6C03B5667F76

Q46553782-07839009-6C39-46CA-B494-9B275FD85ABE

Q46553782-0C3E4432-5452-4581-9B94-A8C81FC042E0

Q46553782-1D2CCA2D-62FE-40A9-B24B-0A4D7017A345

Q46553782-1FDEE168-D9EB-4C87-A705-1DFBFAF9822B

Q46553782-2CB9514D-0FE3-4AA0-98FF-19FBBB9E39D0

Q46553782-30CF35B5-955D-47CB-BFC4-E21FC3EC43B0

Q46553782-3CF3CFD2-DCE5-4794-A8E7-23F1CFDED357

Q46553782-43C739F4-9ADB-4F00-8AD2-86EF3C29CF24

Q46553782-48D050AD-0EBF-41E5-8A7F-F33B48BFE428

P304

Q46553782-EFEA7163-5C17-46AD-96A7-8AF1DF8F69D6

P31

Q46553782-5CC4854E-9D11-4872-B1C9-5F761D0BF212

P356

Q46553782-D5A4F4F5-DD82-4574-97B9-7F72CE302A5B

P407

Q46553782-900A0BFD-A55E-454F-A1AF-C92F72612121

P433

Q46553782-A2A4B440-4A66-4D2E-A465-49F521E08925

P478

Q46553782-3211F3F9-673D-4108-AAD9-F0891D49571C

P50

Q46553782-205E5640-FA7A-470D-B97D-03AAD5884E71

Q46553782-30BF543A-2694-4994-9B7F-49B2CE915792

Q46553782-958675CA-D84F-4078-A332-1A728A2299E8

P577

Q46553782-C9DCEB47-6821-427E-B90F-39AB2D79B2F4

P5875

Q46553782-8601D45E-8F98-487C-BECB-91AA682C95E3

P698

Q46553782-1D03A957-166E-4CF6-BE6A-4CA565284221

P932

Q46553782-53FE2549-2A8E-4E0E-9F28-D0F9EE876FA3

P356

P1433

Plant Physiology

P1476

The intracellular fate of a recombinant protein is tissue dependent.

@en

P2093

Eva Stoger

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

Georgia Drakakaki

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

Pablo Gonzalez-Melendi

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

Rainer Fischer

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

Sylvain Marcel

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

P2860

N-Glycan analysis by matrix-assisted laser desorption/ionization mass spectrometry of electrophoretically separated nonmammalian proteins: application to peanut allergen Ara h 1 and olive pollen allergen Ole e 1.

Analysis of Asn-linked glycans from vegetable foodstuffs: widespread occurrence of Lewis a, core alpha1,3-linked fucose and xylose substitutions.

Comparative analysis of the site-specific N-glycosylation of human lactoferrin produced in maize and tobacco plants.

N-glycosylation potential of maize: the human lactoferrin used as a model.

Improvement of in-gel digestion protocol for peptide mass fingerprinting by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry.

The transport of prolamine RNAs to prolamine protein bodies in living rice endosperm cells.

Targeting and release of phytohemagglutinin from the roots of bean seedlings.

Cereal seed storage proteins: structures, properties and role in grain utilization.

COMPARTMENTATION OF PROTEINS IN THE ENDOMEMBRANE SYSTEM OF PLANT CELLS.

Differential targeting of the tobacco PR-1 pathogenesis-related proteins to the extracellular space and vacuoles of crystal idioblasts.

P304

578-586

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

P31

scholarly article

P356

10.1104/PP.106.076661

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

P407

P433

2

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

P478

141

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

P50

Friedrich Altmann

P577

2006-04-21T00:00:00Z

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

P5875

7147399

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

P698

16632592

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

P932

1475444

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