Team:Stanford/sBOLvPage

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==Central Dogma Symbols==
==Central Dogma Symbols==
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| This image corresponds to the stability of the protein. Once again, the solid line signifies protein. In this image and the following, the size of the circle is representative (on a log-based scale) of the protein halflife protein, aka its "stability." The larger circle appearing here signifies a more stable form.  
| This image corresponds to the stability of the protein. Once again, the solid line signifies protein. In this image and the following, the size of the circle is representative (on a log-based scale) of the protein halflife protein, aka its "stability." The larger circle appearing here signifies a more stable form.  
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==Genetic Engineering Symbols==
==Genetic Engineering Symbols==
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Revision as of 23:10, 18 October 2009

Background to SBOL-V

Central Dogma Symbols

Part Forward Reverse Other Information
Origin of Replication Origin1.png Origin2.png The circle represents a plasmid. The rectangle signifies the site of the replication origin on the plasmid. An indication of the plasmid copy number is OPTIONAL but MUST be located in the center of the circle. Molecules per cell is the RECOMMENDED scale. Secondly, the shorthand version of the Origin of Replication, Annotated. The rectangle is omitted. This symbol SHOULD be used for rapid drawing and communication. However, the Origin of Replication, Annotated symbol is RECOMMENDED.
Constitutive Promoter VBOL.Promoter+.png VBOL.Promoter-.png Constitutive Promoter: Represents a DNA sequence that promotes RNA polymerase binding and transcription in the forward direction. The open square indicates constitutive

transcription. The arrow and its presence on the DNA strand indicates directionality.

Inducible Promoter VBOL.Inducible Promoter+1.png VBOL.Inducible Promoter-1.png Represents a forward promoter that is induced. The "+" sign indicates that promoter needs to be induced to initiate transcription.
Repressible Promoter VBOL.Repressible Promoter+1.png VBOL.Repressible Promoter-1.png Represents a forward promoter that can be repressed to block transcription. The "-" sign suggests the promoter's repressibility and the rightward arrow, as in the case of the rightward constiutive promoter, indicates directionality.
Promoters With Operators VBOL.PromoterOperator+.png VBOL.PromoterOperator-1.png VBOL.PromoterOperator2.png A combination of two symbols, one indicates a forward promoter. The open boxes on either or both sides of the promoter indicate an upstream or downstream operator. The box can be filled with information about the specific location and functionality of the operator.
Open Reading Frame VBOL.ORF+.png VBOL.ORF-.png Represent an rightward-facing ORF. The tag shape emphasizes the single continuous DNA fragment of the ORF and then arrowhead at the end of the tag represents the 5' to 3' directionality of the reading frame.
Translational Start Site VBOL.RBS+1.png VBOL.RBS-1.png Represents a Shine-Delgarno sequence in the rightward strand of prokaryotes, IRES in viruses and ribosome loading structure in eukaryotes. The half-circle is intended to visually represent the ribosome binding to a DNA strand.
Terminator VBOL.Terminator+.png VBOL.Terminator-.png VBOL.Terminator.png Represents the location on the gene where transcription ends. The "T" shape not only reminds one visually of a "T" for "Terminator," but also the t-structure visually represents a hairpin structure that is formed at the end of transcription.
Primer Site VBOL.Primer+.png VBOL.Primer-.png Represents the location where the primer binds in order for transcription to occur.
Ribonuclease Site Ribonuclease.png Represents the site where RNA is cut. In this icon and the following, a dashed line corresponds to functional elements encoded on RNA. The "x" is supposed to correlate to the "cutting" of the RNA.
RNA Stability Elements RNAStability1.png RNAStability2.png RNAStability3.png Corresponds to the stability of the RNA linked to secondary structure at this point. Once again, the dashed line signifies an RNA-encoded function. In this image and the following, the size of the circle is representative (on a log-based scale) of the half life of the RNA, aka its "stability." The larger circle appearing here signifies a stable molecue, with decreasing size corresponding to decreasing stability.
Protease Site Protease.png Represents the site where proteins are broken down or "cut." The image is intentionally similar to the ribonuclease site, only the solid line here and in the following images corresponds to proteins.
Protein Degradation Elements Proteindegrade1.png Proteindegrade2.png Proteindegrade3.png This image corresponds to the stability of the protein. Once again, the solid line signifies protein. In this image and the following, the size of the circle is representative (on a log-based scale) of the protein halflife protein, aka its "stability." The larger circle appearing here signifies a more stable form.



Genetic Engineering Symbols

Part Forward Reverse Other Information
Barcode Barcode+.png Barcode-.png Provides additional information about a gene (e.g., its name, date of synthesis and/or the individual or team that synthesized it). The "x__ " is meant to remind someone of a place on a document where one can put their signature and sign off. Similarly, here is a location where one can provide their "signature."
Prefix VBOL.prefix1.png VBOL.prefix2.png Represents a quick visual of the location of the engineered prefix sequence as recommended by the BioBricks Registry. The half circle will be clear and easy to pick up as a location of genetic engineering, and it elegantly combines with a smaller circle representing the "suffix" to form the scar.
Suffix VBOL.suffix1.png VBOL.suffix2.png Represents a quick visual of the location of the engineered suffix as recemmended by the BioBricks Registry. The circle, once again, will be clearly noticed as a location of genetic engineering and fits elegantly with the prefix symbol.
Scar Scar1.png Scarout.png Represents the location where two engineered parts have been joined- specifically where the prefix and suffix have joined.
Restriction Sites 3Restriction.png 5Restriction.png Bluntrestriction.png A restriction endonuclease site that results in 3', 5' or blunt overhangs. The diagonal line is meant to illustrate the geometry of the cut site and the sticky ends.
Type IIs Off-Set Cutters Offsetcutterup.png Offsetcutterdown.png A restriction endonuclease site that binds at one location on the DNA strand, but cuts at a location downstream from this initial site. It results in an overhang.