Signal Transduction Mechanisms of HAMP and PAS Domains in Bacterial Chemotaxis PDF Download
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Author: Nattakan Sukomon
Publisher:
ISBN:
Category :
Languages : en
Pages : 482
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Book Description
Bacteria utilize two-component systems to respond and adapt to changes in their environments. Central to the systems are modular receptors that comprise various functional domains to detect those changes and relay signals to effector domains. HAMP (Histidine kinases, Adenylate cyclases, Methyl accepting proteins and Phosphatases) and PAS (Per-Arnt-Sim) are two of the most common domains that couple various effectors to regulate a wide range of cellular activities. HAMP domains are signal relay modules that connects input and output domains. The HAMP domain from the E. coli serine receptor Tsr has been extensively studied by using genetic techniques, which leads to a model of HAMP biphasic stability that explains the behaviors of Tsr mutant receptors. However, limited biophysical data on the Tsr HAMP are available due to the instability of the domain. In order to provide stability to the Tsr HAMP, a chimera containing Tsr spliced into the poly-HAMP domains from Pseudomonas aeruginosa Aer2 (PaAer2) was created. Within the chimera, the Tsr HAMP maintains its characteristic four-helix coiled-coil structure with the distinctively lowered melting temperature compared to the PaAer2. This chimera was used to study three well-characterized HAMP mutational phenotypes differentiated by flagella-rotation patterns and CheA kinase activities: functional counterclockwise flagella rotation [CCW(A), kinase off], functional clockwise flagella rotation (CW, kinase on), and lesion-induced counterclockwise rotation [CCW(B), kinase off]. The stabilities and structural dynamics of the three phenotypes conform to the biphasic model. The transitions between functional on and off states are mediated by helix rotations and scissor-type movements. In the lesion-induced kinase off, the AS1 helices dissociate from the bundle while the AS2 helices form a two-helix colied coil. Overall, this study provides insights into relationships between HAMP conformational behaviors and their corresponding functional outputs. PAS domains are sensor motifs that are critical in signal transductions of prokaryotic and eukaryotic sensory proteins including chemoreceptors. Vibrio cholerae Aer2 (VcAer2), a PaAer2 homolog, has been shown to mediate responses to oxygen through the heme-binding PAS domains. Substitution of the conserved Trp 276 in the PAS2 domain to Leu abolished the O2-stabilizing ability, which corroborates its O2-ligating role. The crystal structure of the VcAer2 W276L is highly similar to the CN-bound PAS domain from PaAer2, suggesting the structure of the W276L mutant might represent the ligand-binding state. VcAer2 can serve as a promising alternative to E. coli Aer or PaAer2 for investigating PAS-mediated chemotaxis.
Author: Nattakan Sukomon
Publisher:
ISBN:
Category :
Languages : en
Pages : 482
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Book Description
Bacteria utilize two-component systems to respond and adapt to changes in their environments. Central to the systems are modular receptors that comprise various functional domains to detect those changes and relay signals to effector domains. HAMP (Histidine kinases, Adenylate cyclases, Methyl accepting proteins and Phosphatases) and PAS (Per-Arnt-Sim) are two of the most common domains that couple various effectors to regulate a wide range of cellular activities. HAMP domains are signal relay modules that connects input and output domains. The HAMP domain from the E. coli serine receptor Tsr has been extensively studied by using genetic techniques, which leads to a model of HAMP biphasic stability that explains the behaviors of Tsr mutant receptors. However, limited biophysical data on the Tsr HAMP are available due to the instability of the domain. In order to provide stability to the Tsr HAMP, a chimera containing Tsr spliced into the poly-HAMP domains from Pseudomonas aeruginosa Aer2 (PaAer2) was created. Within the chimera, the Tsr HAMP maintains its characteristic four-helix coiled-coil structure with the distinctively lowered melting temperature compared to the PaAer2. This chimera was used to study three well-characterized HAMP mutational phenotypes differentiated by flagella-rotation patterns and CheA kinase activities: functional counterclockwise flagella rotation [CCW(A), kinase off], functional clockwise flagella rotation (CW, kinase on), and lesion-induced counterclockwise rotation [CCW(B), kinase off]. The stabilities and structural dynamics of the three phenotypes conform to the biphasic model. The transitions between functional on and off states are mediated by helix rotations and scissor-type movements. In the lesion-induced kinase off, the AS1 helices dissociate from the bundle while the AS2 helices form a two-helix colied coil. Overall, this study provides insights into relationships between HAMP conformational behaviors and their corresponding functional outputs. PAS domains are sensor motifs that are critical in signal transductions of prokaryotic and eukaryotic sensory proteins including chemoreceptors. Vibrio cholerae Aer2 (VcAer2), a PaAer2 homolog, has been shown to mediate responses to oxygen through the heme-binding PAS domains. Substitution of the conserved Trp 276 in the PAS2 domain to Leu abolished the O2-stabilizing ability, which corroborates its O2-ligating role. The crystal structure of the VcAer2 W276L is highly similar to the CN-bound PAS domain from PaAer2, suggesting the structure of the W276L mutant might represent the ligand-binding state. VcAer2 can serve as a promising alternative to E. coli Aer or PaAer2 for investigating PAS-mediated chemotaxis.
Author: Michael V. Airola
Publisher:
ISBN:
Category :
Languages : en
Pages : 0
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Book Description
The focus of my dissertation is on the signaling mechanisms employed by PAS and HAMP domains, which are widespread signaling modules that coordinate cellular metabolism with external stimuli. A subset of PAS domains directly sense external stimuli, through an associated cofactor or ligand, and regulate the activity of an attached effector domain. In contrast, HAMP domains do not sense external stimuli and serve as signal relay modules. They are typically associated with the membrane and relay extracellular signals into intracellular responses. A subset of HAMP domains, which occur in poly-HAMP chains, are not associated with the membrane and differ from canonical HAMP domains in the region responsible for signal input. To investigate HAMP domain signal transduction I have used the soluble receptor Aer2 as a model system. A unifying mechanism for HAMP domain signal transduction has yet to emerge, mainly due to lack of structural information. In chapter 1, I present the crystal structure of a 3-unit poly-HAMP chain from Aer2. Two distinct HAMP conformations were identified and a new model for signal transduction is presented. In Appendix 1, I present data that defines essential features of membrane associated HAMP domains. The results indicate that a signature motif: DExG, is required for HAMP domains to receive signal input across the membrane. PAS and HAMP domains can occur within the same protein. The best-studied example is the E. coli aerotaxis receptor Aer, where direct side-on PAS and HAMP domain interactions propagate signals downstream. In Chapter 3, I present a model for PAS and HAMP domain signal transduction in Aer2 that does not involve direct sideon interactions. This represents a new paradigm for applicable to successive PAS and HAMP domains and other similar signaling systems. One recent controversy, in the mammalian circadian clock, is the identification of two core clock genes, PER2 and nPAS2, as heme-binding PAS proteins. A complicated feedback mechanism has been suggested where cycles in heme availability feedback to regulate the activity of PER2 and nPAS2. In chapter 2, I present data that PER2-heme interactions are non-specific and not biologically relevant to the mammalian circadian clock.
Author: Andrei N. Lupas
Publisher:
ISBN:
Category :
Languages : en
Pages : 380
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Book Description
Author: Elizabeth Gottlin Ninfa
Publisher:
ISBN:
Category :
Languages : en
Pages : 260
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Author: Ryutaro Utsumi
Publisher: Springer Science & Business Media
ISBN: 0387788859
Category : Medical
Languages : en
Pages : 257
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Book Description
This fascinating book encourages many microbiologists and students to enter the new world of signal transduction in microbiology. Over the past decade, a vast amount of exciting new information on the signal transduction pathway in bacteria has been unearthed.
Author: Dipanjan Samanta
Publisher:
ISBN:
Category :
Languages : en
Pages : 107
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Author: Janet Kurjan
Publisher: Academic Press
ISBN:
Category : Science
Languages : en
Pages : 488
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Book Description
Reviews current knowledge of molecular mechanisms for sensory transduction in a variety of microbial systems, as well as work done in nematodes and Drosophila. Chapters are included on bacteria, yeasts, nematodes, Dictyostelium, Chlamydomonas, Paramecium and Drosophila.
Author: Bastien D. Gomperts
Publisher: Gulf Professional Publishing
ISBN: 9780122896323
Category : Medical
Languages : en
Pages : 444
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Book Description
Signal Transduction is a text reference on cellular signalling processes. Starting with the basics, it explains how cells respond to external cues (hormones, cytokines, neurotransmitters, adhesion molecules, extracellular matrix etc), and shows how these inputs are integrated and co-ordinated. The first half of the book provides the conceptual framework, explaining the formation and action of second messengers, particularly cyclic nucleotides and calcium, and the mediation of signal pathways by GTP-binding proteins. The remaining chapters deal with the formation of complex signalling cascades employed by cytokines and adhesion molecules, starting at the membrane and ending in the nucleus, there to regulate gene transcription. In this context, growth is an important potential outcome and this has relevance to the cellular transformations that underlie cancer. The book ends with a description at the molecular level of how signalling proteins interact with their environment and with each other through their structural domains. Each main topic is introduced with a historical essay, detailing the sources, key observations and experiments that set the scene for recent and current work.
Author: Xiqing Wang
Publisher:
ISBN: 9781303541070
Category :
Languages : en
Pages : 100
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Book Description
During bacterial chemotaxis, motile bacteria modulate their swimming behavior in response to environmental stimuli. At the molecular level, a histidine kinase, CheA, acts as an input-output element that couples sensory information to the swimming behavior of a bacterium. This thesis focuses on the signal transmission in the domains of CheA, including identification of the interaction site between CheA's regulatory domain and the cytoplasmic domain of chemoreceptor, establishment of the roles of two interdomain linkers in the signal transduction pathway, and the elucidation of how the interdomain linker that connects the dimerization and ATP-binding domains assumes its functional role. These findings extend our understanding of the chemotaxis signal transduction pathway.
Author: Anna Kolesar Eaton
Publisher:
ISBN:
Category :
Languages : en
Pages :
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