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  Patent History
  • Application
    AU 19910085221D 1991-09-20
  • Publication
    AU 8522191 1992-04-15
Supplementary

published patent: STABLE PROPAGATION OF MODIFIED FULL LENGTH CYSTIC FIBROSIS TRANSMEMBRANE CONDUCTANCE REGULATOR PROTEIN CDNA IN HETEROLOGOUS SYSTEMS

TitleSTABLE PROPAGATION OF MODIFIED FULL LENGTH CYSTIC FIBROSIS TRANSMEMBRANE CONDUCTANCE REGULATOR PROTEIN CDNA IN HETEROLOGOUS SYSTEMS
Priority Date1990-09-21 GB19900020632
Inventors
Issue Date1992
Citation
Australia Published Patent Application AU 8522191. Australia: IP Australia, 1992 How to Cite?
AbstractA modified DNA sequence encoding full length cystic fibrosis transmembrane conductance regulator protein is provided to facilitate propagation and/or expression of the protein in living cells and in particular, bacterial cells. The modified DNA sequence comprises at least one of the 13 base pair repeat of exon 6b of the normal gene encoding the conductance regulator protein, as one or more normal nucleotides of the 13 base pair repeat substituted with an alternate nucleotide which however continues to code for the corresponding normal amino acid. Mammalian cells transfected with a vector containing the modified DNA sequence enhances chlorine conductance through the cell wall.
Persistent Identifierhttp://hdl.handle.net/10722/176560

 

DC FieldValueLanguage
dc.date.accessioned2012-11-30T08:38:07Z-
dc.date.available2012-11-30T08:38:07Z-
dc.date.issued1992-
dc.identifier.citationAustralia Published Patent Application AU 8522191. Australia: IP Australia, 1992en_HK
dc.identifier.urihttp://hdl.handle.net/10722/176560-
dc.description.abstractA modified DNA sequence encoding full length cystic fibrosis transmembrane conductance regulator protein is provided to facilitate propagation and/or expression of the protein in living cells and in particular, bacterial cells. The modified DNA sequence comprises at least one of the 13 base pair repeat of exon 6b of the normal gene encoding the conductance regulator protein, as one or more normal nucleotides of the 13 base pair repeat substituted with an alternate nucleotide which however continues to code for the corresponding normal amino acid. Mammalian cells transfected with a vector containing the modified DNA sequence enhances chlorine conductance through the cell wall.en_HK
dc.rightsCreative Commons: Attribution 3.0 Hong Kong License For Public Patent Documentsen_US
dc.titleSTABLE PROPAGATION OF MODIFIED FULL LENGTH CYSTIC FIBROSIS TRANSMEMBRANE CONDUCTANCE REGULATOR PROTEIN CDNA IN HETEROLOGOUS SYSTEMSen_HK
dc.typePatenten_US
dc.contributor.inventorTsui, LCen_HK
dc.contributor.inventorJohanna M. Rommensen_HK
patents.identifier.applicationAU 19910085221Den_HK
patents.description.assigneeHSC RES DEV LP [CA]en_HK
patents.description.countryAustraliaen_HK
patents.date.publication1992-04-15en_HK
patents.date.application1991-09-20en_HK
patents.date.priority1990-09-21 GB19900020632en_HK
patents.description.ccAUen_HK
patents.identifier.publicationAU 8522191en_HK
patents.relation.familyAT 253633 (T) 2003-11-15en_HK
patents.relation.familyAU 6161690 (A) 1991-04-03en_HK
patents.relation.familyAU 647408 (B2) 1994-03-24en_HK
patents.relation.familyAU 3489193 (A) 1993-09-13en_HK
patents.relation.familyAU 4851393 (A) 1994-04-12en_HK
patents.relation.familyAU 8522191 (A) 1992-04-15en_HK
patents.relation.familyCA 2061579 (A1) 1993-08-21en_HK
patents.relation.familyCA 2066204 (A1) 1991-02-23en_HK
patents.relation.familyCA 2091882 (A1) 1992-03-19en_HK
patents.relation.familyCA 2091907 (A1) 1992-03-22en_HK
patents.relation.familyCA 2144314 (A1) 1994-03-31en_HK
patents.relation.familyCA 2161962 (A1) 1994-12-22en_HK
patents.relation.familyCA 2289222 (A1) 1992-03-19en_HK
patents.relation.familyDE 69034115 (T2) 2004-07-15en_HK
patents.relation.familyDK 0489058 (T3) 2004-03-22en_HK
patents.relation.familyEP 0489058 (A1) 1992-06-10en_HK
patents.relation.familyEP 0549691 (A1) 1993-07-07en_HK
patents.relation.familyEP 0659046 (A1) 1995-06-28en_HK
patents.relation.familyEP 0710123 (A1) 1996-05-08en_HK
patents.relation.familyEP 1418183 (A1) 2004-05-12en_HK
patents.relation.familyES 2210224 (T3) 2004-07-01en_HK
patents.relation.familyIE 903024 (A1) 1991-02-27en_HK
patents.relation.familyIE 20040698 (A1) 2004-12-01en_HK
patents.relation.familyJP H08504092 (A) 1996-05-07en_HK
patents.relation.family( A) 1996-05-07en_HK
patents.relation.family( ) 1998-09-21en_HK
patents.relation.familyJP H09500524 (A) 1997-01-21en_HK
patents.relation.familyJP 2948910 (B2) 1999-09-13en_HK
patents.relation.familyJP H06504188 (A) 1994-05-19en_HK
patents.relation.familyJP 3253073 (B2) 2002-02-04en_HK
patents.relation.familyJP H05500306 (A) 1993-01-28en_HK
patents.relation.familyJP 2002355088 (A) 2002-12-10en_HK
patents.relation.familyJP 2004208694 (A) 2004-07-29en_HK
patents.relation.familyUS 5240846 (A) 1993-08-31en_HK
patents.relation.familyUS 5434086 (A) 1995-07-18en_HK
patents.relation.familyUS 5543399 (A) 1996-08-06en_HK
patents.relation.familyUS 5585362 (A) 1996-12-17en_HK
patents.relation.familyUS 5625128 (A) 1997-04-29en_HK
patents.relation.familyUS 5667766 (A) 1997-09-16en_HK
patents.relation.familyUS 5776677 (A) 1998-07-07en_HK
patents.relation.familyUS 5863770 (A) 1999-01-26en_HK
patents.relation.familyUS 6063913 (A) 2000-05-16en_HK
patents.relation.familyUS 6201107 (B1) 2001-03-13en_HK
patents.relation.familyUS 6730777 (B1) 2004-05-04en_HK
patents.relation.familyUS 6902907 (B1) 2005-06-07en_HK
patents.relation.familyUS 6984487 (B1) 2006-01-10en_HK
patents.relation.familyWO 9102796 (A1) 1991-03-07en_HK
patents.relation.familyWO 9205252 (A1) 1992-04-02en_HK
patents.relation.familyWO 9205273 (A1) 1992-04-02en_HK
patents.relation.familyWO 9307265 (A1) 1993-04-15en_HK
patents.relation.familyWO 9317040 (A2) 1993-09-02en_HK
patents.relation.familyWO 9406283 (A1) 1994-03-31en_HK
patents.relation.familyWO 9428938 (A1) 1994-12-22en_HK
patents.description.kindAen_HK
patents.typePatent_publisheden_HK

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