Sandbox1qu7

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This the structure of Ser Protein which is a chemoreceptor, this forms a trimer of dimers

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1 Serine Chemotaxis
2 Function
3 Disease and Relevance
4 Overview of Structure and Mechanism

Serine Chemotaxis

The of Serine Chemotaxis or can be divided into 4 domains: , , and domain. can be divided into : Periplasmic, Transmembrane, HAMP, Cytoplasmic domain (including the methylation sites).The cytoplasmic domain includes both a methylation region and a protein interaction region, The methylation region contains 4 glutamic acid residues that are methylated as part of adaptation to an ongoing stimulus, The protein interaction region binds to the histidine kinase CheA and the coupling protein CheW. ligand binding inactivates the kinase. Additionally, there are methylation sites in the cytoplasmic domain. This structure also shows the . Once the binds to the periplasmic domain, However, it is not known what changes in the cytoplasmic domain propagate the signal 200 Å further to control the activity of the kinase CheA bound at the membrane-distal tip of the receptor. Changes in dynamics of different regions of the receptor have been proposed to propagate the signal. The piston is proposed to stabilize the HAMP domain, destabilize the methylation region, and stabilize the protein interaction region. it causes changes in the dynamics of the chemoreceptor. In the kinase-off state, the HAMP domain becomes, the methylation sites become and the cytoplasmic domain becomes less flexible.

To test the effects of changes to residues in the HAMP domain in the Tsr Receptor, certain residues were mutated. So codon-by-codon mutagenesis was performed on the regions in AS1 and in AS2. 13 of the mutant amino acids were considered either critical or important. Important residues are those residues at which a majority of amino acid replacements demonstrably impaired Tsr function. Critical residues are the ones at which majority of the deleterious replacements produced a complete loss-of-function (null) phenotype. By these criteria, AS1 has one important (P221) and six critical (L218, M222, L225, I229, I232, A233) residues; AS2 has six critical residues (E248, M249, L252, L256, M259, L263).

Function

Motile bacteria like Escherichia coli cells are attracted to and repelled by signals in their surroundings due to transmembrane chemoreceptor proteins, i.e: their direction of movement is controlled by this mechanism. The stimulus information travels through the receptor molecule, shifting the dynamic properties of adjoining structural elements. The section of the found in the cytoplasmic membrane is a helical-bundle structure signaling molecule.

Disease and Relevance

If we can understand^[1] how the bacteria moves^[1] we might be able to make antibiotics that can target those specific control sites and prevent diseases by halting their search for attractant molecules. The chemoreceptors Escherichia coli and Salmonella typhimurium^[2] are stable and ultrasensitive molecules with coupling proteins, CheW and CheA attached at the bottom. A ligand bound can stimulate change through the kinase control model as a response. Among the 3 kinase control regulations, CheA and CheW binding is done through stable spatial clustering-leading to the YinYang Hypothesis^[3]. It proposes that strong helix packing stabilizes the receptor.

Overview of Structure and Mechanism

The section of the found in the cytoplasmic membrane is a helical-bundle structure signaling molecule.

References

↑ ^1.0 ^1.1 Parkinson JS, Hazelbauer GL, Falke JJ. Signaling and sensory adaptation in Escherichia coli chemoreceptors: 2015 update. Trends Microbiol. 2015 May;23(5):257-66. doi: 10.1016/j.tim.2015.03.003. Epub, 2015 Mar 30. PMID:25834953 doi:http://dx.doi.org/10.1016/j.tim.2015.03.003
↑ Harris MJ, Struppe JO, Wylie BJ, McDermott AE, Thompson LK. Multidimensional Solid-State Nuclear Magnetic Resonance of a Functional Multiprotein Chemoreceptor Array. Biochemistry. 2016 Jul 5;55(26):3616-24. doi: 10.1021/acs.biochem.6b00234. Epub, 2016 Jun 24. PMID:27295350 doi:http://dx.doi.org/10.1021/acs.biochem.6b00234
↑ Swain KE, Gonzalez MA, Falke JJ. Engineered socket study of signaling through a four-helix bundle: evidence for a yin-yang mechanism in the kinase control module of the aspartate receptor. Biochemistry. 2009 Oct 6;48(39):9266-77. PMID:19705835 doi:http://dx.doi.org/10.1021/bi901020d

Retrieved from "http://52.214.119.220/wiki/index.php/Sandbox1qu7"

@@ Line 1: / Line 1: @@
+<StructureSection load='' size='[350,700]' side='right' caption='This the structure of Ser Protein which is a chemoreceptor, this forms a trimer of dimers' scene='78/782579/Cartoonribbon/1'>
 ==Serine Chemotaxis==
-This is the total<scene name='78/782579/Cartooncylinder/2'> ser receptor</scene>but it can be divided into 4 domains: <scene name='78/782579/The_periplasmic/1'>periplasmic</scene>, transmembrane, <scene name='78/782579/Hampdomain/1'>HAMP</scene> and cytoplasmic
+The <scene name='78/782579/Ligandalpha2/5'>intact</scene> <scene name='78/782579/Cylindercartoon/2'>structure</scene> of Serine Chemotaxis or <scene name='78/782579/Cartoonribbon/1'>Ser Receptor</scene>  can be divided into 4 domains: <scene name='78/782579/Peri_highlighted/1'>Periplasmic</scene>, <scene name='78/782579/Tmhighlighted/1'>Transmembrane</scene>, <scene name='78/782579/Hamphighlighted/1'>HAMP</scene> and <scene name='78/782579/Cytohighlighted/1'>cytoplasmic</scene> domain. can be divided into <scene name='78/782579/Coloredribbon1/1'>4 domains</scene>: <font color='#FFA500'>Periplasmic</font>, <font color='#CC0000'>Transmembrane</font>, <font color='#FFD700'>HAMP</font>, <font color=' #48D1CC'>Cytoplasmic domain</font> (including the <font color='#FF00FF'>methylation sites</font>).The cytoplasmic domain includes both a methylation region and a protein interaction region, The methylation region contains 4 glutamic acid residues that are methylated as part of adaptation to an ongoing stimulus, The protein interaction region binds to the histidine kinase CheA and the coupling protein CheW. ligand binding inactivates the kinase. Additionally, there are methylation sites in the cytoplasmic domain.
-<Structure load='Insert PDB code or filename here' size='350' frame='true' align='right' caption='Insert caption here' scene='Insert optional scene name here' />
+This <scene name='78/782579/Cartooncylinder3/5'>labeled</scene> structure also shows the <scene name='78/782579/1qu7/2'>membrane</scene>.
-<StructureSection load='1qu7' size='350' side='right' caption='This the structure of Ser Protein which is in the transmembrane domain, this forms a trimer of dimers (PDB entry [[1qu7]])' scene=''>
+Once the <scene name='78/782579/Ligandalpha/2'>ligand</scene> binds to the periplasmic domain,
+However, it is not known what changes in the cytoplasmic domain propagate the signal 200 Å further to control the activity of the kinase CheA bound at the membrane-distal tip of the receptor. Changes in dynamics of different regions of the receptor have been proposed to propagate the signal. The piston is proposed to stabilize the HAMP domain, destabilize the methylation region, and stabilize the protein interaction region. it causes changes in the dynamics of the chemoreceptor. In the kinase-off state, the HAMP domain becomes<scene name='78/782579/Ligandhamp/1'> less flexible</scene>, the methylation sites become <scene name='78/782579/Ligandcyto/5'>more flexible</scene> and the cytoplasmic domain becomes less flexible.
-== Function ==
+To test the effects of changes to residues in the HAMP domain in the Tsr Receptor, certain residues were mutated. So codon-by-codon mutagenesis was performed on the regions <scene name='78/782579/Mutantsas1/3'>K215-A233</scene> in AS1 and <scene name='78/782579/Mutantas2/1'>E248-R265</scene> in AS2. 13 of the mutant amino acids were considered either critical or important.  Important residues are those residues at which a majority of amino acid replacements demonstrably impaired Tsr function. Critical residues are the ones at which majority of the deleterious replacements produced a complete loss-of-function (null) phenotype. By these criteria, AS1 has one important (P221) and six critical (L218, M222, L225, I229, I232, A233) residues; AS2 has six critical residues (E248, M249, L252, L256, M259, L263).
-The<scene name='78/782579/Serreceptor/3'> Ser Receptor</scene> is a helical-bundle structure signaling molecule found in the cytoplasmic membrane. The ligand binds to the top of the long alpha structures, sending a signal across the membrane into the cell proteins that bind near the bottom.
+== Function ==
+Motile bacteria like Escherichia coli cells are attracted to and repelled by signals in their surroundings due to transmembrane chemoreceptor proteins, i.e: their direction of movement is controlled by this mechanism. The stimulus information travels through the receptor molecule, shifting the dynamic properties of adjoining structural elements. The section of the<scene name='78/782579/Serreceptor/3'> Ser Receptor</scene> found in the cytoplasmic membrane is a helical-bundle structure signaling molecule.
 == Disease and Relevance ==
-The chemoreceptors Escherichia coli and Salmonella typhimurium are stable and ultrasensitive molecules with coupling proteins, CheW and CheA attached at the bottom. A ligand bound can stimulate change through the kinase control model as a response. Among the 3 kinase control regulations, CheA and CheW binding is done through stable spatial clustering-leading to the YinYang Hypothesis. It proposes that strong helix packing stabilizes the receptor.
+If we can understand<ref name="Falke">PMID: 25834953</ref> how the bacteria moves<ref name="Falke" /> we might be able to make antibiotics that can target those specific control sites and prevent diseases by halting their search for attractant molecules.
+The chemoreceptors Escherichia coli and Salmonella typhimurium<ref name="Harris">PMID: 27295350</ref> are stable and ultrasensitive molecules with coupling proteins, CheW and CheA attached at the bottom. A ligand bound can stimulate change through the kinase control model as a response. Among the 3 kinase control regulations, CheA and CheW binding is done through stable spatial clustering-leading to the YinYang Hypothesis<ref name="Swain">PMID: 19705835</ref>. It proposes that strong helix packing stabilizes the receptor.
 == Overview of Structure and Mechanism ==
+The section of the<scene name='78/782579/Serreceptor/3'> Ser Receptor</scene> found in the cytoplasmic membrane is a helical-bundle structure signaling molecule.
-== References ==
 </StructureSection>
+== References ==
+<references />

Sandbox1qu7

From Proteopedia

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Contents

Serine Chemotaxis

Function

Disease and Relevance

Overview of Structure and Mechanism

References

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