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=='''~~MYOGLOBIN~~'''==

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==Symmetry in the Bcl-Xl interface==

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<StructureSection load='2yxj_With_Ligand_Mati_Cohen.pdb' size='500' frame='true' align='right' caption='Bcl-Xl and ABT737 from PDB-ID 2yxj' scene=''>Bcl-Xl is a member of the [http://en.wikipedia.org/wiki/Bcl-2 Bcl-2 family]. This family consists of [http://en.wikipedia.org/wiki/Apoptosis pro-apoptotic] and [http://en.wikipedia.org/wiki/Apoptosis anti-apoptotic] members. Bcl-Xl (in the image) ,an anti-apoptotic protein, binds pro-apoptotic proteins like BAK and BAD thus regularly inhibit program cell death. Many cancer cells overexpress at least one of the anti-apoptotic members of this family ,thus escaping a needed apoptosis . Therefore, these proteins are important targets for the development of new anti-cancer drugs.

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[~~[ Image~~:~~1MBO_oxymyo-1~~.~~jpg | thumb| oxymyoglobin 1MBO]]~~

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The PDB file [[2yxj]] shows the structure of Bcl-Xl and ABT 737. ABT 737 is a potent inhibitor of Bcl-Xl (Kd = 1nM). It binds Bcl-xl in the same position as BAK does as can be seen in [[1bxl]].

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Interestingly the interface of Bcl-Xl is almost symmetric. There are <scene name='43/437742/2yxj_arg/9'>two positively charged residues</scene> Arg 100 and Arg 139.

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<scene name='43/437742/2yxj_glu/7'>two negatively charged residues</scene> Glu96 and Glu129.

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~~===OVERVIEW===~~

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Two <scene name='43/437742/2yxj_hyd/4'>hydrophobic patches</scene> which include Phe191 Val141 and

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Ala93 for one, and the other patch includes Phe146 Val126 and Leu108. A look at the <scene name='43/437742/2yxj_space_fill_color_charged/3'>Overall</scene> picture shows that there are hydrophobic patches (in gray) "above" and "below" the ligand ,negatively charged residues "above-right" and "below-left" of the ligand and positively charges on the "right" and "left" of it.

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This symmetry can be exploited, a symmetric molecule can bind the same interface in two different ways thus increasing the "chance" of binding which means better binding affinity.

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~~'''Myoglobin''' is an iron- and oxygen-binding protein found in the muscle tissue~~ of ~~vertebrates in general and in almost all mammals~~. ~~It is related to hemoglobin, which is the iron~~- and ~~oxygen~~-~~binding protein in blood, specifically in the red blood cells~~. ~~The only time myoglobin is found~~ in the ~~bloodstream is when it is released following muscle injury. It is~~ an ~~abnormal finding, and can be diagnostically relevant when found in blood.~~

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~~Myoglobin (abbreviated Mb) is a single~~-~~chain globular~~ protein ~~of 153 or 154 amino acids~~, ~~containing a heme (iron~~-~~containing porphyrin) prosthetic group in the center around which the remaining apoprotein folds. It has eight alpha helices~~ and ~~a hydrophobic core~~. ~~It has a molecular weight~~ of ~~16,700 daltons, and is~~ the ~~primary oxygen~~-~~carrying pigment~~ of ~~muscle tissues. Unlike the blood-borne hemoglobin, to which it is structurally related,~~ this ~~protein does not exhibit cooperative binding of oxygen~~, ~~since positive cooperativity is~~ a ~~property of multimeric/oligomeric proteins only~~. ~~Instead~~, the ~~binding~~ of oxygen by myoglobin is unaffected by the oxygen pressure in the surrounding tissue. Myoglobin is often cited as having an "instant binding tenacity" to oxygen given its hyperbolic oxygen dissociation curve. High concentrations of myoglobin in muscle cells allow organisms to hold their breaths longer. Diving mammals such as whales and seals have muscles with particularly high myoglobin abundance.

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~~Myoglobin was~~ the ~~first protein to have its three~~-~~dimensional structure revealed~~. ~~In 1958, John Kendrew and associates successfully determined the structure~~ of ~~myoglobin by high~~-~~resolution X-ray crystallography~~. ~~For this discovery, John Kendrew shared~~ the ~~1962 Nobel Prize~~ in ~~chemistry with Max Perutz~~. ~~Despite being one of~~ the ~~most studied proteins in biology, its true physiological function~~ is ~~not yet conclusively established: mice genetically engineered to lack myoglobin~~ are ~~viable, but showed a 30% reduction in cardiac systolic output. They adapted to this deficiency through hypoxic genetic mechanisms~~ and ~~increased vasodilation~~. ~~In humans myoglobin is encoded by the MB gene.~~

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=~~==STRUCTURE AND FUNCTION===~~

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=~~==PATHOLOGY===~~

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=~~==REFERENCES===~~

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~~Replace the PDB id~~ (~~use lowercase!~~) ~~after~~ the ~~STRUCTURE_~~ and ~~after PDB= to load~~

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and ~~display another structure~~.

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~~{{STRUCTURE_3cin | PDB=3cin | SCENE= }}~~

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From Proteopedia

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Symmetry in the Bcl-Xl interface

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-=='''MYOGLOBIN'''==
+==Symmetry in the Bcl-Xl interface==
-----
+<StructureSection load='2yxj_With_Ligand_Mati_Cohen.pdb' size='500' frame='true' align='right' caption='Bcl-Xl and ABT737 from PDB-ID 2yxj' scene=''>Bcl-Xl is a member of the [http://en.wikipedia.org/wiki/Bcl-2 Bcl-2 family]. This family consists of  [http://en.wikipedia.org/wiki/Apoptosis pro-apoptotic] and [http://en.wikipedia.org/wiki/Apoptosis anti-apoptotic] members. Bcl-Xl (in the image)  ,an anti-apoptotic protein, binds pro-apoptotic proteins like BAK and BAD thus regularly inhibit program cell death. Many cancer cells overexpress at least one of the anti-apoptotic members of this family ,thus escaping a needed apoptosis . Therefore, these proteins are important targets for the development of new anti-cancer drugs.
-[[ Image:1MBO_oxymyo-1.jpg | thumb| oxymyoglobin 1MBO]]
+The PDB file [[2yxj]] shows the structure of Bcl-Xl and ABT 737. ABT 737 is a potent inhibitor of Bcl-Xl (Kd = 1nM). It binds Bcl-xl in the same position as BAK does as can be seen in [[1bxl]].
-----
+Interestingly the interface of Bcl-Xl is almost symmetric. There are <scene name='43/437742/2yxj_arg/9'>two positively charged residues</scene> Arg 100 and Arg 139.
+<scene name='43/437742/2yxj_glu/7'>two negatively charged residues</scene> Glu96 and Glu129.
-===OVERVIEW===
+Two <scene name='43/437742/2yxj_hyd/4'>hydrophobic patches</scene> which include Phe191 Val141 and
+Ala93 for one, and the other patch includes Phe146 Val126 and Leu108. A look at the  <scene name='43/437742/2yxj_space_fill_color_charged/3'>Overall</scene> picture shows that there are hydrophobic patches (in gray) "above" and "below" the ligand ,negatively charged residues "above-right" and "below-left" of the ligand and positively charges on the "right" and "left" of it.
+This symmetry can be exploited, a symmetric molecule can bind the same interface in two different ways thus increasing the "chance" of binding which means better binding affinity.
-'''Myoglobin''' is an iron- and oxygen-binding protein found in the muscle tissue of vertebrates in general and in almost all mammals. It is related to hemoglobin, which is the iron- and oxygen-binding protein in blood, specifically in the red blood cells. The only time myoglobin is found in the bloodstream is when it is released following muscle injury. It is an abnormal finding, and can be diagnostically relevant when found in blood.
-Myoglobin (abbreviated Mb) is a single-chain globular protein of 153 or 154 amino acids, containing a heme (iron-containing porphyrin) prosthetic group in the center around which the remaining apoprotein folds. It has eight alpha helices and a hydrophobic core. It has a molecular weight of 16,700 daltons, and is the primary oxygen-carrying pigment of muscle tissues.  Unlike the blood-borne hemoglobin, to which it is structurally related, this protein does not exhibit cooperative binding of oxygen, since positive cooperativity is a property of multimeric/oligomeric proteins only. Instead, the binding of oxygen by myoglobin is unaffected by the oxygen pressure in the surrounding tissue. Myoglobin is often cited as having an "instant binding tenacity" to oxygen given its hyperbolic oxygen dissociation curve. High concentrations of myoglobin in muscle cells allow organisms to hold their breaths longer. Diving mammals such as whales and seals have muscles with particularly high myoglobin abundance.
-Myoglobin was the first protein to have its three-dimensional structure revealed.  In 1958, John Kendrew and associates successfully determined the structure of myoglobin by high-resolution X-ray crystallography.  For this discovery, John Kendrew shared the 1962 Nobel Prize in chemistry with Max Perutz.   Despite being one of the most studied proteins in biology, its true physiological function is not yet conclusively established: mice genetically engineered to lack myoglobin are viable, but showed a 30% reduction in cardiac systolic output. They adapted to this deficiency through hypoxic genetic mechanisms and increased vasodilation.   In humans myoglobin is encoded by the MB gene.
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-===STRUCTURE AND FUNCTION===
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-===PATHOLOGY===
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-===REFERENCES===
-Replace the PDB id (use lowercase!) after the STRUCTURE_ and after PDB= to load
-and display another structure.
-{{STRUCTURE_3cin |  PDB=3cin  |  SCENE=  }}