about
Conservation of proteobacterial magnetosome genes and structures in an uncultivated member of the deep-branching Nitrospira phylum.Planctomycetes do possess a peptidoglycan cell wall.Fuerstia marisgermanicae gen. nov., sp. nov., an Unusual Member of the Phylum Planctomycetes from the German Wadden Sea.Determining the bacterial cell biology of Planctomycetes.Diversity analysis of magnetotactic bacteria in Lake Miyun, northern China, by restriction fragment length polymorphism.Cultivation-independent characterization of 'Candidatus Magnetobacterium bavaricum' via ultrastructural, geochemical, ecological and metagenomic methods.Untangling Genomes of Novel Planctomycetal and Verrucomicrobial Species from Monterey Bay Kelp Forest Metagenomes by Refined Binning.Frequent mutations within the genomic magnetosome island of Magnetospirillum gryphiswaldense are mediated by RecA.Comparison of HSV-1 thymidine kinase-dependent and -independent inhibition of replication-competent adenoviral vectors by a panel of drugs.From genome mining to phenotypic microarrays: Planctomycetes as source for novel bioactive molecules.Comparative genomic analysis of magnetotactic bacteria from the Deltaproteobacteria provides new insights into magnetite and greigite magnetosome genes required for magnetotaxis.Biosynthesis of magnetic nanostructures in a foreign organism by transfer of bacterial magnetosome gene clusters.Single-cell analysis reveals a novel uncultivated magnetotactic bacterium within the candidate division OP3.The bacterial ‘mitochondrium’Cultivation and functional characterization of 79 planctomycetes uncovers their unique biologyNon-essentiality of canonical cell division genes in the planctomycete Planctopirus limnophilaThe planctomycete Stieleria maiorica Mal15T employs stieleriacines to alter the species composition in marine biofilms
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Q28301978-40D10CE5-FDE7-422C-9C3A-9CD2B238EFA7Q30650621-0B9F01A5-CD18-4A86-BCC6-16A912145764Q30832738-DA10E68C-6A4E-436F-B8EB-25361504B958Q30845512-7EE268E4-025C-47CF-986B-4CB896908FE8Q33402807-83CD20D4-8177-4CA0-9643-1F9EB5CF2953Q33560329-DD85DBE9-B1BD-41EA-A7F0-F87829A17100Q37729563-14027A00-B136-441E-9C18-175ED786775EQ38631196-7ED7AF05-9FF2-4518-93A3-9700F25477D0Q40632749-4DD9307A-E79D-441C-AD82-F40992CE4EF3Q44674313-DB3F883D-57FD-4DB5-B5E8-5CD94BEE78B7Q45822700-3CA02A5D-4492-43A7-BD2A-7629F6C939A7Q46066580-7E97B038-1E18-45A8-955D-989F360A76CEQ53212478-F4893976-FB38-4097-9B01-B13B768BD38AQ61948509-4687FB29-DED8-4A36-8744-DF65916E7BC9Q91329930-C6267229-A1F8-4617-A36B-7E556C01F211Q92527541-4166CCF6-A722-42F0-B9E5-6F1F65B6C0B1Q96348557-C434384F-2AB5-4DE6-BA82-B79DF6690D3C
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description
researcher, ORCID id # 0000-0002-2313-3389
@en
wetenschapper
@nl
name
Christian Jogler
@ast
Christian Jogler
@en
Christian Jogler
@es
Christian Jogler
@nl
type
label
Christian Jogler
@ast
Christian Jogler
@en
Christian Jogler
@es
Christian Jogler
@nl
prefLabel
Christian Jogler
@ast
Christian Jogler
@en
Christian Jogler
@es
Christian Jogler
@nl
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P214
P106
P108
P21
P214
P31
P496
0000-0002-2313-3389
P735
P7859
viaf-60192181