about
PknG senses amino acid availability to control metabolism and virulence of Mycobacterium tuberculosis.Functional dissection of the PE domain responsible for translocation of PE_PGRS33 across the mycobacterial cell wall.Surface expression of MPT64 as a fusion with the PE domain of PE_PGRS33 enhances Mycobacterium bovis BCG protective activity against Mycobacterium tuberculosis in miceThe PPE domain of PPE17 is responsible for its surface localization and can be used to express heterologous proteins on the mycobacterial surfaceConserved Pro-Glu (PE) and Pro-Pro-Glu (PPE) protein domains target LipY lipases of pathogenic mycobacteria to the cell surface via the ESX-5 pathway.PE_PGRS33 Contributes to Mycobacterium tuberculosis Entry in Macrophages through Interaction with TLR2Revisiting the role of phospholipases C in virulence and the lifecycle of Mycobacterium tuberculosis.Genomic analysis of smooth tubercle bacilli provides insights into ancestry and pathoadaptation of Mycobacterium tuberculosis.Mycobacterium tuberculosis evolutionary pathogenesis and its putative impact on drug development.Nitazoxanide Analogs Require Nitroreduction for Antimicrobial Activity in Mycobacterium smegmatis.pks5-recombination-mediated surface remodelling in Mycobacterium tuberculosis emergence.Xer site-specific recombination, an efficient tool to introduce unmarked deletions into mycobacteria.PE is a functional domain responsible for protein translocation and localization on mycobacterial cell wall.Analysis of SecA2-dependent substrates in Mycobacterium marinum identifies protein kinase G (PknG) as a virulence effector.PE_PGRS30 is required for the full virulence of Mycobacterium tuberculosisFunctional dissection of protein domains involved in the immunomodulatory properties of PE_PGRS33 ofMycobacterium tuberculosis
P50
Q33739457-40E1A0AE-3EEA-48BE-9C00-04D6DB2CB2B3Q34081754-9DB35864-D090-479E-8BCB-BF40ACA0EC80Q34309667-055C9258-7937-43C5-B6E6-A481AF4C5281Q34613099-758409DF-2DBB-4AA9-8C5D-CB98A0AA5C25Q34998258-E50EC59E-8E02-4C9A-818F-A95FD20FDC42Q35957768-8B48F967-AE3B-47A2-801A-DFF34C1F0807Q36316419-C8124B04-840D-45CC-A652-6AD01097A345Q37377646-362242D1-98DD-4F94-886D-87461359B573Q38258834-5BE81400-1F3A-4F70-8D93-2C0D46FC74EFQ40077845-DA17C968-86A5-4922-BB8C-C36FDBA72E18Q40559589-11A48BB6-DD55-4F35-A387-6D5EDAD2F847Q41836610-AF551887-0F7D-4FBC-8334-84C2DD7B4467Q42637560-5128A67C-D049-4705-A0AA-81EC6D4B8F33Q54403588-5609CDCD-9780-4DB4-B885-181E69016AB5Q58453157-2979C84F-407C-4CC8-9683-638D73F7E487Q60920169-AB578827-C20C-4AA1-ADAE-462CF5098F0C
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Alessandro Cascioferro
@ast
Alessandro Cascioferro
@en
Alessandro Cascioferro
@es
Alessandro Cascioferro
@nl
type
label
Alessandro Cascioferro
@ast
Alessandro Cascioferro
@en
Alessandro Cascioferro
@es
Alessandro Cascioferro
@nl
prefLabel
Alessandro Cascioferro
@ast
Alessandro Cascioferro
@en
Alessandro Cascioferro
@es
Alessandro Cascioferro
@nl
P1053
E-3445-2017
P106
P1153
23018230500
P21
P31
P496
0000-0001-7751-7348