about
A new synthetic biology approach allows transfer of an entire metabolic pathway from a medicinal plant to a biomass cropSpontaneous Chloroplast Mutants Mostly Occur by Replication Slippage and Show a Biased Pattern in the Plastome of Oenothera.A bifunctional aminoglycoside acetyltransferase/phosphotransferase conferring tobramycin resistance provides an efficient selectable marker for plastid transformation.Identification of enzymes for adenosine-to-inosine editing and discovery of cytidine-to-uridine editing in nucleus-encoded transfer RNAs of Arabidopsis.Temporal proteomics of inducible RNAi lines of Clp protease subunits identifies putative protease substrates.Shine-Dalgarno Sequences Play an Essential Role in the Translation of Plastid mRNAs in Tobacco.Complete Mitochondrial Complex I Deficiency Induces an Up-Regulation of Respiratory Fluxes That Is Abolished by Traces of Functional Complex I.Control of Retrograde Signaling by Rapid Turnover of GENOMES UNCOUPLED 1.A leaf-based regeneration and transformation system for maize (Zea mays L.).Recent advances and current challenges in synthetic biology of the plastid genetic system and metabolismReplication of bacterial plasmids in the nucleus of the red alga Porphyridium purpureumHigh-level expression of the HIV entry inhibitor griffithsin from the plastid genome and retention of biological activity in dried tobacco leavesEngineering of high-precision base editors for site-specific single nucleotide replacementHighly Resolved Systems Biology to Dissect the Etioplast-to-Chloroplast Transition in Tobacco LeavesChloroplast competition is controlled by lipid biosynthesis in evening primrosesAuthor Correction: Engineering of high-precision base editors for site-specific single nucleotide replacementA highly efficient sulfadiazine selection system for the generation of transgenic plants and algae.In vivo analysis of RNA editing in plastidsChloroplast Translation: Structural and Functional Organization, Operational Control, and RegulationLighting the Way to Protein-Protein Interactions: Recommendations on Best Practices for Bimolecular Fluorescence Complementation AnalysesExpanding the genome-targeting scope and the site selectivity of high-precision base editorsEstablishment of a Heterologous RNA Editing Event in ChloroplastsProduction of tetravalent dengue virus envelope protein domain III based antigens in lettuce chloroplasts and immunologic analysis for future oral vaccine developmentLimited Responsiveness of Chloroplast Gene Expression during Acclimation to High Light in TobaccoHigh-efficiency generation of fertile transplastomic Arabidopsis plantsControl of retrograde signalling by protein import and cytosolic folding stressGeneration of virus-resistant potato plants by RNA genome targetingExtensive Posttranscriptional Regulation of Nuclear Gene Expression by Plastid Retrograde SignalsIn-depth characterization of Trichoderma reesei cellobiohydrolase TrCel7A produced in Nicotiana benthamiana reveals limitations of cellulase production in plants by host-specific post-translational modifications
P50
Q28830319-EEB9A747-CEFA-428A-AA9A-DBDF069A7FE2Q38884699-5563A316-2F60-41CB-B738-5604F887826CQ42321888-9983DDBC-58A2-4A9A-BCB6-F5003E606A6CQ43866392-2A3B6C2A-2C9D-4771-BAEA-5A25F48E150AQ47305203-2077968E-7F9A-4C44-82FC-920C4CEB5588Q47604582-6378CB45-EC8B-40E0-B3EC-DC5AEAF344CEQ48163834-6AD821C7-7006-4E4E-8A66-4871848EB0BEQ49789881-18079B8A-C179-44D4-B8C9-17960AADEAD9Q51104804-418297D9-B367-45EB-96DC-6CDA72F1C48CQ57161440-788AF0B8-3CB8-46F5-AC06-50896F514C99Q58701331-9E7F01FF-4123-4C0B-9C96-0F10C8B7BDEBQ59358053-82496454-1D07-45AD-A4F9-E7F3CD676541Q61124564-42ACE438-6F49-40BC-9748-E9DF0A7E3BDBQ63945771-1E6CFA35-214D-4DCD-BF35-CC5BC1946784Q64069580-FA8CF8D3-3C8A-4A91-9B30-53FC5485728AQ64076287-F86EF293-5E3B-4184-B315-64EB60D03811Q64982756-CC0F1CC8-C090-4781-8CFD-DD4C1791AD29Q83520235-0339A879-85F5-444D-B8B3-80B7548AFCDEQ88248644-87979AC9-11E7-4EFB-AAB9-937CE4B70DDAQ89268162-9A7380F1-6F6F-4C77-8605-D7F19BD27E4DQ89474582-DDF5FC89-05A0-41E5-9FDE-B39AAB459ACAQ90100154-04DD4575-90B5-420F-AB25-30C8CE95344BQ90713910-61E9590E-0E36-47E9-B70B-B8729637EE8DQ90856161-973032C4-C02B-44C6-BE01-0590EC90B493Q91691380-BF705260-FAAA-4510-8BF0-D25AA3848F21Q91806584-7A7AC8BC-9773-477B-BC6B-5BF30BD735FBQ91896266-AF9CEA6B-70AB-498E-82B2-4B72CAD5AAA3Q92354892-85E044F1-E82F-4BB7-9D57-81EBE75C653EQ92361725-42C43716-B455-4CB3-8A85-BDD0AF6B828B
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description
investigador
@es
researcher
@en
wetenschapper
@nl
name
Ralph Bock
@en
Ralph Bock
@nl
type
label
Ralph Bock
@en
Ralph Bock
@nl
prefLabel
Ralph Bock
@en
Ralph Bock
@nl
P31
P496
0000-0001-7502-6940