Backbone representations: Difference between revisions
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Backbone representations are simplified 3D depictions of proteins or nucleic acids that enable the polymer chain structure to be seen. In proteins, a simple <font style="background:black;color:yellow;"> backbone trace </font> connects alpha carbons ('''balls''') but the <font style="background:black;color:yellow;"> backbone trace line </font> does not coincide with any of the covalent bonds in the main chain | Backbone representations are simplified 3D depictions of proteins or nucleic acids that enable the polymer [[chain]] structure to be seen. In proteins, a simple <font style="background:black;color:yellow;"> backbone trace </font> connects alpha carbons (shown as '''balls''' in the <scene name='59/599354/Helix/13'>initial scene</scene>) but the <font style="background:black;color:yellow;"> backbone trace line </font> does not coincide with any of the covalent bonds in the main chain. | ||
<StructureSection load='' size=' | <StructureSection load='' size='450' side='right' caption='' scene='59/599354/Helix/13'> | ||
==Protein Main Chain== | ==Protein Main Chain== | ||
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==Protein Backbone Trace== | ==Protein Backbone Trace== | ||
<scene name='59/599354/Helix/5'>Backbone Trace</scene>: Now we'll draw a <font style="background:black;color:yellow;"> yellow line </font> between alpha carbons (balls). This line is called a <font style="background:black;color:yellow;"> backbone trace </font>. | <scene name='59/599354/Helix/5'>Backbone Trace</scene>: Now we'll draw a <font style="background:black;color:yellow;"> yellow line </font> between alpha carbons (balls). This line is called a <font style="background:black;color:yellow;"> backbone trace </font>. Note that the backbone trace does not follow any actual covalent chemical bonds -- it simply | ||
connects alpha carbon positions, thereby simplifying the representation. | |||
*<scene name='59/599354/Helix/6'>Hiding all atoms except alpha carbons</scene> makes the backbone trace even clearer. | *<scene name='59/599354/Helix/6'>Hiding all atoms except alpha carbons</scene> makes the backbone trace even clearer. | ||
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==Protein Domain Example== | ==Protein Domain Example== | ||
Now lets look at a <scene name='59/599354/Domain/1'>small protein domain</scene> ([[1pgb]]). This domain contains the alpha helix used above, but also contains a small beta sheet made of four beta strands, plus loops (regions that are neither alpha helix nor beta strand) connecting the helices and strands. The helices and strands are represented as ribbons, while the "ropes" connecting them are smoothed backbone traces. This type of representation is properly called a '''secondary structure schematic''', but is called a '''cartoon''' in [[ | Now lets look at a <scene name='59/599354/Domain/1'>small protein domain</scene> ([[1pgb]]). This domain contains the alpha helix used above, but also contains a small beta sheet made of four beta strands, plus loops (regions that are neither alpha helix nor beta strand) connecting the helices and strands. The helices and strands are represented as ribbons, while the "ropes" connecting them are smoothed backbone traces. This type of representation is properly called a '''secondary structure schematic''', but is called a '''cartoon''' in [[Jmol]] and its family of ancestral visualization programs ([[RasMol]], [[Chime]]). '''Arrowheads''' point towards the carboxy terminus. | ||
* | *A <scene name='59/599354/Domain/10'>useful way of coloring</scene> such a ribbon representation is with a spectral sequence of colors from the amino (N) terminus to the carboxy (C) terminus. (Proteins are synthesized by adding amino acids to the C terminus.) This color scheme is called '''N->C Rainbow'''. Notice how the arrowheads point towards the C terminus. | ||
{{Template:ColorKey_N2CRainbow}} | |||
*Next, lets <scene name='59/599354/Domain/2'>color by secondary structure</scene>: | |||
{{Template:ColorKey_Helix}}, | {{Template:ColorKey_Helix}}, | ||
{{Template:ColorKey_Strand}}, | {{Template:ColorKey_Strand}}, | ||
{{Template:ColorKey_Loop}}. | {{Template:ColorKey_Loop}}. | ||
*For comparison, here are <scene name='59/599354/Domain/ | *For comparison, here are <scene name='59/599354/Domain/9'>all the atoms in this domain</scene>. | ||
*Here are the <scene name='59/599354/Domain/4'>atoms alone</scene>, without the ribbon. | *Here are the <scene name='59/599354/Domain/4'>atoms alone</scene>, without the ribbon. | ||
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</StructureSection> | </StructureSection> | ||
== See Also == | |||
*[[Introduction to molecular visualization]] | |||
*[[Secondary structure]] which has links to other pages with details on alpha helices, beta sheets, and turns. | |||
== References == | == References == | ||
<references/> | <references/> | ||
[[Category: BioMolViz]] | |||
[[Category: Alternate Renderings]] | |||
Latest revision as of 20:45, 5 November 2020
Backbone representations are simplified 3D depictions of proteins or nucleic acids that enable the polymer chain structure to be seen. In proteins, a simple backbone trace connects alpha carbons (shown as balls in the ) but the backbone trace line does not coincide with any of the covalent bonds in the main chain.
Protein Main ChainLets begin with (15 amino acids)[1] The atoms and bonds are colored by element: C H O N.
Protein Backbone Trace: Now we'll draw a yellow line between alpha carbons (balls). This line is called a backbone trace . Note that the backbone trace does not follow any actual covalent chemical bonds -- it simply connects alpha carbon positions, thereby simplifying the representation.
Smoothed Protein Backbone TraceA is another common backbone representation. Here, the smoothed backbone trace is green .
Ribbon Backbone TracePerhaps the most common protein backbone representation is the . Here the ribbon is violet , the standard secondary structure color for alpha helices. As you can see, the ribbon is a smoothed backbone trace expanded in width. The arrowhead at one end points to the carboxyl terminus.
Protein Domain ExampleNow lets look at a (1pgb). This domain contains the alpha helix used above, but also contains a small beta sheet made of four beta strands, plus loops (regions that are neither alpha helix nor beta strand) connecting the helices and strands. The helices and strands are represented as ribbons, while the "ropes" connecting them are smoothed backbone traces. This type of representation is properly called a secondary structure schematic, but is called a cartoon in Jmol and its family of ancestral visualization programs (RasMol, Chime). Arrowheads point towards the carboxy terminus.
Alpha Helices, Beta Strands , Loops .
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See AlsoSee Also
- Introduction to molecular visualization
- Secondary structure which has links to other pages with details on alpha helices, beta sheets, and turns.