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  • 1
    Book
    Book
    Gene regulation of siderophore mediated iron assimilation in Pseudomonas putida : = Gen regulatie van de ijzer-siderofoor opname in Pseudomonas putida (1994)
    Details
    UID:
    (DE-602)almafu_BV009998523
    Format: 123 S. : graph. Darst.
    ISBN: 90-393-0903-5
    Note: Utrecht, Univ., Diss., 1994. - Zsfassung in niederländ. Sprache , Utrecht, Univ., Diss., 1994
    Language: Dutch , English
    Keywords: Pseudomonas putida ; Siderophore ; Biosynthese ; Genregulation ; Hochschulschrift ; Proefschriften (vorm)
    Library Location Call Number Volume/Issue/Year Availability
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    Book
    FU Berlin get availability status
    KOBV
  • 2
    Book
    Book
    Gene regulation of siderophore mediated iron assimilation in Pseudomonas putida : = Gen regulatie van de ijzer-siderofoor opname in Pseudomonas putida (1994)
    Details
    UID:
    (DE-603)03507292X
    Format: 123 Seiten , Illustrationen, Diagramme
    ISBN: 9039309035
    Note: Enthält Sonderabdrucke aus verschiedenen Zeitschriften , Dissertation Universität Utrecht 1994 , Zusammenfassung in niederländischer Sprache
    Language: English
    Keywords: Hochschulschrift
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    Book
    HeBIS
  • 3
    Book
    Book
    Gene regulation of siderophore mediated iron assimilation in Pseudomonas putida : = Gen regulatie van de ijzer-siderofoor opname in Pseudomonas putida (1994)
    Details
    UID:
    (DE-604)BV009998523
    Format: 123 S. , graph. Darst.
    ISBN: 9039309035
    Note: Utrecht, Univ., Diss., 1994. - Zsfassung in niederländ. Sprache , Utrecht, Univ., Diss., 1994
    Language: Dutch , English
    Keywords: Pseudomonas putida ; Siderophore ; Biosynthese ; Genregulation ; Hochschulschrift ; Proefschriften (vorm)
    Library Location Call Number Volume/Issue/Year Availability
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    Book
    BVB
  • 4
    Book
    Book
    Gene regulation of siderophore mediated iron assimilation in Pseudomonas putida : = Gen regulatie van de ijzer-siderofoor opname in Pseudomonas putida (1994)
    Details
    UID:
    (DE-627)1629237469
    Format: 123 S. , graph. Darst.
    ISBN: 9039309035
    Note: (met een samenvatting in het Nederlands) , Utrecht, Univ., Diss., 1994
    Language: English
    Keywords: Pseudomonas putida ; Siderophore ; Biosynthese ; Genregulation ; Hochschulschrift
    Library Location Call Number Volume/Issue/Year Availability
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    Book
    BSZ
  • 5
    Online Resource
    Online Resource
    LuxR Solos are Becoming Major Players in Cell-Cell Communication in Bacteria (2016)
    [Erscheinungsort nicht ermittelbar] : Frontiers Media SA
    Details
    UID:
    (DE-627)1778596363
    Format: 1 Online-Ressource (122 p.)
    ISBN: 9782889199174
    Series Statement: Frontiers Research Topics
    Content: The most common quorum se ...
    Note: English
    Language: English
    URL: kostenfrei
    Library Location Call Number Volume/Issue/Year Availability
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    Online Resource
    Stabi Berlin
    UB Potsdam
    BSZ
    GBV
  • 6
    Online Resource
    Online Resource
    LuxR Solos are Becoming Major Players in Cell-Cell Communication in Bacteria (2016)
    Frontiers Media SA
    Details
    UID:
    (DE-605)HT020090637
    Format: 1 electronic resource (122 p.)
    ISBN: 9782889199174
    Content: The most common quorum sensing (QS) system in Gram-negative bacteria occurs via N-acyl homoserine lactone (AHLs) signals. An archetypical system consists of a LuxI-family protein synthesizing the AHL signal which binds at quorum concentrations to the cognate LuxR-family transcription factors which then control gene expression by binding to specific sequences in target gene promoters. QS LuxR-family proteins are approximately 250 amino acids long and made up of two domains; at the N-terminus there is an autoinducer-binding domain whereas the C-terminus contains a DNA-binding helix-turn-helix (HTH) domain. QS LuxRs display surprisingly low similarities (18-25%) even if they respond to structurally similar AHLs. 95% of LuxRs share 9 highly conserved amino acid residues; six of these are hydrophobic or aromatic and form the cavity of the AHL-binding domain and the remaining three are in the HTH domain.-
    Content: With only very few exceptions, the luxI/R cognate genes of AHL QS systems are located adjacent to each other. The sequencing of many bacterial genomes has revealed that many proteobacteria also possess LuxRs that do not have a cognate LuxI protein associated with them. These LuxRs have been called orphans and more recently solos. LuxR solos are widespread in proteobacterial species that possess a canonical complete AHL QS system as well as in species that do not. In many cases more than one LuxR solo is present in a bacterial genome. Scientists are beginning to investigate these solos.-
    Content: Are solos responding to AHL signals? If present in a bacterium which possesses a canonical AHL QS system are solos an integral part of the regulatory circuit? Are LuxR solos eavesdropping on AHLs produced by neighboring bacteria? Have they evolved to respond to different signals instead of AHLs, and are these signals endogenously produced or exogenously provided? Are they involved in interkingdom signaling by responding to eukaryotic signals? Recent studies have revealed that LuxR solos are involved in several mechanisms of cell-cell communication in bacteria implicating them in bacterial intraspecies and interspecies communication as well as in interkingdom signaling by responding to molecules produced by eukaryotes. LuxR solos are likely to become major players in signaling since they are widespread among proteobacterial genomes and because initial studies highlight their different roles in bacterial communication.-
    Note: English
    Language: Undetermined
    URL: DOAB: download the publication
    URL: DOAB: description of the publication
    Library Location Call Number Volume/Issue/Year Availability
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    Online Resource
    HBZ
  • 7
    Online Resource
    Online Resource
    LuxR Solos are Becoming Major Players in Cell-Cell Communication in Bacteria (2016)
    [Erscheinungsort nicht ermittelbar] : Frontiers Media SA
    Details
    UID:
    (DE-602)gbv_1778596363
    Format: 1 Online-Ressource (122 p.)
    ISBN: 9782889199174
    Series Statement: Frontiers Research Topics
    Content: The most common quorum se ...
    Note: English
    Language: English
    URL: kostenfrei
    Library Location Call Number Volume/Issue/Year Availability
    BibTip Others were also interested in ...
    Online Resource
    Stabi Berlin
    UB Potsdam
    KOBV
  • 8
    Online Resource
    Online Resource
    LuxR Solos are Becoming Major Players in Cell-Cell Communication in Bacteria (2016)
    Frontiers Media SA
    Details
    UID:
    (DE-602)edocfu_9958279065502883
    Format: 1 electronic resource (122 p.)
    Series Statement: Frontiers Research Topics
    Content: The most common quorum sensing (QS) system in Gram-negative bacteria occurs via N-acyl homoserine lactone (AHLs) signals. An archetypical system consists of a LuxI-family protein synthesizing the AHL signal which binds at quorum concentrations to the cognate LuxR-family transcription factors which then control gene expression by binding to specific sequences in target gene promoters. QS LuxR-family proteins are approximately 250 amino acids long and made up of two domains; at the N-terminus there is an autoinducer-binding domain whereas the C-terminus contains a DNA-binding helix-turn-helix (HTH) domain. QS LuxRs display surprisingly low similarities (18-25%) even if they respond to structurally similar AHLs. 95% of LuxRs share 9 highly conserved amino acid residues; six of these are hydrophobic or aromatic and form the cavity of the AHL-binding domain and the remaining three are in the HTH domain. With only very few exceptions, the luxI/R cognate genes of AHL QS systems are located adjacent to each other. The sequencing of many bacterial genomes has revealed that many proteobacteria also possess LuxRs that do not have a cognate LuxI protein associated with them. These LuxRs have been called orphans and more recently solos. LuxR solos are widespread in proteobacterial species that possess a canonical complete AHL QS system as well as in species that do not. In many cases more than one LuxR solo is present in a bacterial genome. Scientists are beginning to investigate these solos. Are solos responding to AHL signals? If present in a bacterium which possesses a canonical AHL QS system are solos an integral part of the regulatory circuit? Are LuxR solos eavesdropping on AHLs produced by neighboring bacteria? Have they evolved to respond to different signals instead of AHLs, and are these signals endogenously produced or exogenously provided? Are they involved in interkingdom signaling by responding to eukaryotic signals? Recent studies have revealed that LuxR solos are involved in several mechanisms of cell-cell communication in bacteria implicating them in bacterial intraspecies and interspecies communication as well as in interkingdom signaling by responding to molecules produced by eukaryotes. LuxR solos are likely to become major players in signaling since they are widespread among proteobacterial genomes and because initial studies highlight their different roles in bacterial communication. This Research Topic allows scientists studying or interested in LuxR solos to report their data and/or express their hypotheses and thoughts on this important and currently understudied family of signaling proteins.
    Note: English
    Additional Edition: ISBN 2-88919-917-7
    Language: English
    Library Location Call Number Volume/Issue/Year Availability
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    Online Resource
    FU Berlin
    KOBV
  • 9
    Online Resource
    Online Resource
    LuxR Solos are Becoming Major Players in Cell-Cell Communication in Bacteria (2016)
    Frontiers Media SA
    Details
    UID:
    (DE-602)edoccha_9958279065502883
    Format: 1 electronic resource (122 p.)
    Series Statement: Frontiers Research Topics
    Content: The most common quorum sensing (QS) system in Gram-negative bacteria occurs via N-acyl homoserine lactone (AHLs) signals. An archetypical system consists of a LuxI-family protein synthesizing the AHL signal which binds at quorum concentrations to the cognate LuxR-family transcription factors which then control gene expression by binding to specific sequences in target gene promoters. QS LuxR-family proteins are approximately 250 amino acids long and made up of two domains; at the N-terminus there is an autoinducer-binding domain whereas the C-terminus contains a DNA-binding helix-turn-helix (HTH) domain. QS LuxRs display surprisingly low similarities (18-25%) even if they respond to structurally similar AHLs. 95% of LuxRs share 9 highly conserved amino acid residues; six of these are hydrophobic or aromatic and form the cavity of the AHL-binding domain and the remaining three are in the HTH domain. With only very few exceptions, the luxI/R cognate genes of AHL QS systems are located adjacent to each other. The sequencing of many bacterial genomes has revealed that many proteobacteria also possess LuxRs that do not have a cognate LuxI protein associated with them. These LuxRs have been called orphans and more recently solos. LuxR solos are widespread in proteobacterial species that possess a canonical complete AHL QS system as well as in species that do not. In many cases more than one LuxR solo is present in a bacterial genome. Scientists are beginning to investigate these solos. Are solos responding to AHL signals? If present in a bacterium which possesses a canonical AHL QS system are solos an integral part of the regulatory circuit? Are LuxR solos eavesdropping on AHLs produced by neighboring bacteria? Have they evolved to respond to different signals instead of AHLs, and are these signals endogenously produced or exogenously provided? Are they involved in interkingdom signaling by responding to eukaryotic signals? Recent studies have revealed that LuxR solos are involved in several mechanisms of cell-cell communication in bacteria implicating them in bacterial intraspecies and interspecies communication as well as in interkingdom signaling by responding to molecules produced by eukaryotes. LuxR solos are likely to become major players in signaling since they are widespread among proteobacterial genomes and because initial studies highlight their different roles in bacterial communication. This Research Topic allows scientists studying or interested in LuxR solos to report their data and/or express their hypotheses and thoughts on this important and currently understudied family of signaling proteins.
    Note: English
    Additional Edition: ISBN 2-88919-917-7
    Language: English
    Library Location Call Number Volume/Issue/Year Availability
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    Online Resource
    Charité
    KOBV
  • 10
    Online Resource
    Online Resource
    LuxR Solos are Becoming Major Players in Cell-Cell Communication in Bacteria (2016)
    [Erscheinungsort nicht ermittelbar] : Frontiers Media SA | The Hague : OAPEN FOUNDATION
    Details
    UID:
    (DE-603)439025613
    Format: 1 Online-Ressource (122 p.)
    ISBN: 9782889199174
    Content: The most common quorum sensing (QS) system in Gram-negative bacteria occurs via N-acyl homoserine lactone (AHLs) signals. An archetypical system consists of a LuxI-family protein synthesizing the AHL signal which binds at quorum concentrations to the cognate LuxR-family transcription factors which then control gene expression by binding to specific sequences in target gene promoters. QS LuxR-family proteins are approximately 250 amino acids long and made up of two domains; at the N-terminus there is an autoinducer-binding domain whereas the C-terminus contains a DNA-binding helix-turn-helix (HTH) domain. QS LuxRs display surprisingly low similarities (18-25%) even if they respond to structurally similar AHLs. 95% of LuxRs share 9 highly conserved amino acid residues; six of these are hydrophobic or aromatic and form the cavity of the AHL-binding domain and the remaining three are in the HTH domain. With only very few exceptions, the luxI/R cognate genes of AHL QS systems are located adjacent to each other. The sequencing of many bacterial genomes has revealed that many proteobacteria also possess LuxRs that do not have a cognate LuxI protein associated with them. These LuxRs have been called orphans and more recently solos. LuxR solos are widespread in proteobacterial species that possess a canonical complete AHL QS system as well as in species that do not. In many cases more than one LuxR solo is present in a bacterial genome. Scientists are beginning to investigate these solos. Are solos responding to AHL signals? If present in a bacterium which possesses a canonical AHL QS system are solos an integral part of the regulatory circuit? Are LuxR solos eavesdropping on AHLs produced by neighboring bacteria? Have they evolved to respond to different signals instead of AHLs, and are these signals endogenously produced or exogenously provided? Are they involved in interkingdom signaling by responding to eukaryotic signals? Recent studies have revealed that LuxR solos are involved in several mechanisms of cell-cell communication in bacteria implicating them in bacterial intraspecies and interspecies communication as well as in interkingdom signaling by responding to molecules produced by eukaryotes. LuxR solos are likely to become major players in signaling since they are widespread among proteobacterial genomes and because initial studies highlight their different roles in bacterial communication. This Research Topic allows scientists studying or interested in ...
    Language: English
    URL: kostenfrei
    Library Location Call Number Volume/Issue/Year Availability
    BibTip Others were also interested in ...
    Online Resource
    HeBIS
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