User:Pakpoom Subsoontorn/Notebook/Genetically Encoded Memory/2008/10/10: Difference between revisions
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***C-terminal 65-169 aa binds to low affinity core-type site. | ***C-terminal 65-169 aa binds to low affinity core-type site. | ||
***170-356 aa is the minimal catalytic domain which include six tyrosine kinase conserved residues: R212, K235, H308, R311, Y342, H308 | ***170-356 aa is the minimal catalytic domain which include six tyrosine kinase conserved residues: R212, K235, H308, R311, Y342, H308 | ||
*Target sequence: [[Media:lambdaInt.gif|diagram (from Groth and Calos, 2004) ]] | *Target sequence: [[Media:lambdaInt.gif|diagram (from Groth and Calos, 2004) ]] | ||
**attB:: has two inverted repeated sequence flanking an overlap region. Inverted repeated sequence (core-type) is about 9-13 bps. | **attB:: has two inverted repeated sequence flanking an overlap region. Inverted repeated sequence (core-type) is about 9-13 bps. |
Revision as of 19:41, 21 October 2008
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Summary Note on site-specific recombinase system
ClassificationKeywords for classification, which can be overlapped
Methods
Site Specific recombinasesName: lambda, Host: Escherichia Coli
host factor (IHF, from HimA and hip genes) is required for sharp bending in DNA, allowing the integrase bound at arm-type site to also bind at the low affinity core-type sites. Break one strand at the time. Tyrosine phosphate binds to 3'end . 5'OH is free. Integration involve holiday junction
Name: HK022, Host: Escherichia Coli
attB:: has two inverted repeated sequence flanking an overlap region. inverted repeated sequence (core-type). The overlap region shares sequence with attP. Crossing over occurs at the overlap region. overlap-region::AGGTGAA attP has arm-type sites flanking core-type site.
Integrases from lambda and HK022 recognize the same arm-type site. However, the integrases notice the difference in core-type site. IHF is required.
attB:: has two inverted repeated sequence flanking an overlap region. inverted repeated sequence (core-type). The overlap region shares sequence with attP. Crossing over occurs at the overlap region. overlap-region::TTCGTAA attP has arm-type sites flanking core-type site.
IHF is required.
Name: HP1, Host: Haemophilus influenzae
length:: 337 aa crystal structure of C-terminal catalytic domain is known
attB:: has two inverted repeated sequence flanking an overlap region. inverted repeated sequence (core-type). The overlap region shares sequence with attP. Crossing over occurs at the overlap region. overlap-region::TTTTAAA attP has arm-type sites flanking core-type site.
Name: L5, Host: Mycobacterium smegmatis
length:: 613 aa crystal structure is unknown.
attP:: has core-type sites and overlap region, without an arm-type site
Mutation/directed evolution could change specificity to pseudo attP site (HpsA, 44% identity)
Excisionase has not yet been found.
Integration works in E.coli, mammalian and in vitro
Name: R4, Host: Streptomyces
length:: 469 aa crystal structure is unknown.
attP:: has core-type sites and overlap region, without an arm-type site. Minimal attB and attP site is <56 bps.
Excisionase has not yet been found.
Integration works in mammalian cell.
length:: 485 aa. crystal structure is unknown.
attP:: has core-type sites and overlap region, without an arm-type site. Minimal attB and attP site is <56 bps
Integration works in E.coli, mammalian cell and in vitro.
Name: Cre (P1), Host: Escherichia coli
Name: XerC, Host: Escherichia coli
Name: Gamma-Delta, Host: Escherichia coli Action: resolvase
length:: 183 aa some crystal structure with res target have been identified.
Integration works in mammalian cell.
Name: Tn3, Host: Klebsiella pneumoniae Action: resolvase
questions/notes
DatabaseReference
335:667-678
improved genomic integration at a native human sequence. Nucl Acids Res, 29 5044-5051 |