about
sameAs
Biocomputational prediction of small non-coding RNAs in StreptomycesRTX proteins: a highly diverse family secreted by a common mechanismType VI secretion system: secretion by a contractile nanomachineEstablished Microbial Colonies Can Survive Type VI Secretion AssaultStructure of the type VI secretion system contractile sheath.Calcium influx rescues adenylate cyclase-hemolysin from rapid cell membrane removal and enables phagocyte permeabilization by toxin pores.Type VI secretion apparatus and phage tail-associated protein complexes share a common evolutionary originPAAR-repeat proteins sharpen and diversify the type VI secretion system spikeShedding light on biology of bacterial cellsThird activity of Bordetella adenylate cyclase (AC) toxin-hemolysin. Membrane translocation of AC domain polypeptide promotes calcium influx into CD11b+ monocytes independently of the catalytic and hemolytic activitiesDe novo protein structure determination from near-atomic-resolution cryo-EM mapsType VI secretion requires a dynamic contractile phage tail-like structure.The iron-regulated transcriptome and proteome of Neisseria meningitidis serogroup C.Francisella requires dynamic type VI secretion system and ClpB to deliver effectors for phagosomal escape.Transcriptomic identification of iron-regulated and iron-independent gene copies within the heavily duplicated Trichomonas vaginalis genome.Eukaryotic-type serine/threonine protein kinase StkP is a global regulator of gene expression in Streptococcus pneumoniae.Meningococcal adhesion suppresses proapoptotic gene expression and promotes expression of genes supporting early embryonic and cytoprotective signaling of human endothelial cells.Using Force to Punch Holes: Mechanics of Contractile Nanomachines.Tit-for-tat: type VI secretion system counterattack during bacterial cell-cell interactions.Type 6 secretion system-mediated immunity to type 4 secretion system-mediated gene transfer.The type VI secretion system sheath assembles at the end distal from the membrane anchor.Pore-forming and enzymatic activities of Bordetella pertussis adenylate cyclase toxin synergize in promoting lysis of monocytes.Acylation of lysine 860 allows tight binding and cytotoxicity of Bordetella adenylate cyclase on CD11b-expressing cells.Type VI Secretion System Substrates Are Transferred and Reused among Sister Cells.The Microbial Olympics 2016.Cryo-EM structure of the extended type VI secretion system sheath-tube complex.Type 6 secretion dynamics within and between bacterial cells.Adenylate cyclase toxin translocates across target cell membrane without forming a pore.Oligomerization is involved in pore formation by Bordetella adenylate cyclase toxin.Cryo-EM reconstruction of Type VI secretion system baseplate and sheath distal end.Type VI secretion system sheath inter-subunit interactions modulate its contraction.Segments Crucial for Membrane Translocation and Pore-forming Activity ofBordetellaAdenylate Cyclase ToxinAbundance of bacterial Type VI secretion system components measured by targeted proteomics.Special type of pheromone-induced invasive growth in Saccharomyces cerevisiaeCellular microbiology interview-Dr Marek BaslerDiverse roles of TssA-like proteins in the assembly of bacterial type VI secretion systems
P50
Q21263182-9EBDCF72-770D-44F7-8EFF-00B24C10A575Q24630254-ED51EF0F-E54A-4743-A22E-7DB48657DEFEQ26787001-A4990F35-3B46-496B-9AA7-826C26F345CBQ27317368-7A072A78-C6C0-4BB8-87C9-F6E7463E207AQ27323007-5AB1FE34-294A-474E-9CD8-1E9F94F4682EQ27346834-DEF79C6E-B243-49A2-A50D-7F8A694841D4Q27653977-19815438-FC76-4CA7-B498-5252B0CF8BF8Q27679451-3DAC3C20-9529-4E2B-BD6F-7925ED7121DDQ28069668-97A9D2A9-1D87-46AA-A36B-BF53ADD111F1Q28485698-4D2F59CF-55F4-4764-9084-C73C0D4E4ADEQ30300622-1D874F96-6C6F-4B63-96DC-6EED5E129011Q30530331-8AF954A4-00A8-47CC-ABD2-BB983295BD88Q33264927-8408EB00-64F8-4E48-ABFB-C8F601AD76DAQ33826930-C8FEEEED-00C8-4995-88AE-33D9A02DBC66Q34414163-F9F19515-8BA4-470C-9293-061965CC9EDDQ35879288-8FAC2BAB-466F-41E0-9DAB-F8C4D5CF66BDQ38309924-996F2B4D-4773-4285-8985-E2D96E3A223BQ39365104-D02B8696-F31A-436C-B3DD-58CFE3C82DA9Q39585454-A80FA539-67D6-45A1-BBD5-722E7F05036BQ39958569-68799F29-2F09-476B-83B5-6624CC209883Q40136650-6F9B72A9-D4EC-4D6C-9221-F37E22E7B2A7Q40301344-29678DD4-510E-4356-9986-1D137253820BQ40371593-10901508-0658-4D7D-AB7B-316C69AE7CF4Q40544246-823F1363-E691-4968-92A5-E416D93FCBBBQ40559021-F2AC794A-0D81-4480-98F0-B0C3C7E928B6Q41596293-79DF2CE9-2696-4BD3-A358-D386131E7DA9Q43052190-A02654C5-C863-4B6F-8F54-CA92EC29BDE3Q43144027-66CEC667-CBE7-456B-8C38-87CE5F25DE1CQ46024755-93C0D5DA-4DE8-4AEE-9400-3799459AFB33Q47279275-CCF05FDC-4A54-419B-A1B7-540AC1B74CF7Q47313478-3A37C775-549C-4266-8FCE-E1BCB787409FQ57792720-BDFB5AD7-3815-4183-82CF-7929F5BA960EQ64930060-4965D275-E0D5-47EF-8A3B-E50A8CA2B13CQ80637223-EB4C40B1-33F7-4559-BE10-958DCC762E62Q90577482-AF82A16D-047E-49FB-87F9-3D2E084EBCFEQ92561786-4869EEFA-81E8-4D12-A3D5-BAD6A41FB782
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Marek Basler
@ast
Marek Basler
@en
Marek Basler
@es
Marek Basler
@nl
Marek Basler
@sl
type
label
Marek Basler
@ast
Marek Basler
@en
Marek Basler
@es
Marek Basler
@nl
Marek Basler
@sl
prefLabel
Marek Basler
@ast
Marek Basler
@en
Marek Basler
@es
Marek Basler
@nl
Marek Basler
@sl
P1053
A-3559-2012
P106
P166
P21
P31
P3829
P496
0000-0001-5414-2088