File Download
Patent History
- ApplicationUS 12/501136 2009-07-10
- GrantedUS 20090325239 2009-12-31
Patent Family
- CN 101395281 (A) 2009-03-25
- CN 102165073 (A) 2011-08-24
- EP 1969146 (A1) 2008-09-17
- EP 2310524 (A1) 2011-04-20
- US 7932029 (B1) 2011-04-26
- US 2009156431 (A1) 2009-06-18
- WO 2007076726 (A1) 2007-07-12
- WO 2008083554 (A1) 2008-07-17
- WO 2010003316 (A1) 2010-01-14
- AT 483804 (T) 2010-10-15
- U S8329400 (B2) 2012-12-11
Supplementary
-
Citations:
- Appears in Collections:
granted patent: METHODS FOR NUCLEIC ACID MAPPING AND IDENTIFICATION OF FINE-STRUCTURAL-VARIATIONS IN NUCLEIC ACIDS
Title | METHODS FOR NUCLEIC ACID MAPPING AND IDENTIFICATION OF FINE-STRUCTURAL-VARIATIONS IN NUCLEIC ACIDS |
---|---|
Granted Patent | US 20090325239 US 8329400 |
Granted Date | 2009-12-31 |
Priority Date | 2006-06-15 US 11/814378P 2006-04-17 US 11/792926P 2006-01-04 US 11/756417P 2008-12-01 US 12/193442P 2008-07-10 US 12/129660P 2007-01-03 US 11/649587 2007-12-12 US 11/954947 2009-07-10 US 12/501136 |
Inventors | |
Issue Date | 2009 |
Citation | US Patent US 20090325239. Washington, DC: US Patent and Trademark Office (USPTO), 2009 How to Cite? |
Abstract | A method of juxtaposing sequence tags (GVTs) that are unique positional markers along the length of a population of target nucleic acid molecules is provided, the method comprising: fragmenting the target nucleic acid molecule to form target DNA insert; ligating the target DNA insert to a DNA vector or backbone to create a circular molecule; digesting the target DNA insert endonuclease to cleave the target DNA insert at a distance from each end of the target DNA insert yielding two GVTs comprising terminal sequences of the target DNA insert attached to an undigested linear backbone; recircularizing the linear backbone with the attached GVTs to obtain a circular DNA containing a GVT-pair having two juxtaposed GVTs; and recovering the GVT-pair DNA by nucleic acid amplification or digestion with endonuclease having sites flanking the GVT-pair.; Cosmid vectors are provided for creating GVT-pairs of ~45- to 50-kb separation sequencable by next-generation DNA sequencers. |
Persistent Identifier | http://hdl.handle.net/10722/210542 |
DC Field | Value | Language |
---|---|---|
dc.date.accessioned | 2015-06-17T07:04:16Z | - |
dc.date.available | 2015-06-17T07:04:16Z | - |
dc.date.issued | 2009 | - |
dc.identifier.citation | US Patent US 20090325239. Washington, DC: US Patent and Trademark Office (USPTO), 2009 | - |
dc.identifier.uri | http://hdl.handle.net/10722/210542 | - |
dc.description.abstract | A method of juxtaposing sequence tags (GVTs) that are unique positional markers along the length of a population of target nucleic acid molecules is provided, the method comprising: fragmenting the target nucleic acid molecule to form target DNA insert; ligating the target DNA insert to a DNA vector or backbone to create a circular molecule; digesting the target DNA insert endonuclease to cleave the target DNA insert at a distance from each end of the target DNA insert yielding two GVTs comprising terminal sequences of the target DNA insert attached to an undigested linear backbone; recircularizing the linear backbone with the attached GVTs to obtain a circular DNA containing a GVT-pair having two juxtaposed GVTs; and recovering the GVT-pair DNA by nucleic acid amplification or digestion with endonuclease having sites flanking the GVT-pair.; Cosmid vectors are provided for creating GVT-pairs of ~45- to 50-kb separation sequencable by next-generation DNA sequencers. | - |
dc.relation.isreferencedby | CN 102559856 (A) 2012-07-11 | - |
dc.relation.isreferencedby | WO 2012083845 (A1) 2012-06-28 | - |
dc.relation.isreferencedby | US 2011225038 (A1) 2011-09-15 | - |
dc.relation.isreferencedby | C N102559856 (B) 2014-03-12 | - |
dc.relation.isreferencedby | US 7932029 (B1) 2011-04-26 | - |
dc.title | METHODS FOR NUCLEIC ACID MAPPING AND IDENTIFICATION OF FINE-STRUCTURAL-VARIATIONS IN NUCLEIC ACIDS | - |
dc.type | Patent | - |
dc.identifier.authority | LOK SI=rp00271 | - |
dc.description.nature | published_or_final_version | - |
dc.contributor.inventor | LOK SI | - |
patents.identifier.application | US 12/501136 | - |
patents.identifier.granted | US 20090325239 | - |
patents.identifier.granted | US 8329400 | - |
patents.description.assignee | LOK SI, ; VERSITECH LIMITED | - |
patents.description.country | United States of America | - |
patents.date.granted | 2009-12-31 | - |
patents.identifier.hkutechid | GRC-2006-00241-2 | - |
patents.date.application | 2009-07-10 | - |
patents.date.priority | 2006-06-15 US 11/814378P | - |
patents.date.priority | 2006-04-17 US 11/792926P | - |
patents.date.priority | 2006-01-04 US 11/756417P | - |
patents.date.priority | 2008-12-01 US 12/193442P | - |
patents.date.priority | 2008-07-10 US 12/129660P | - |
patents.date.priority | 2007-01-03 US 11/649587 | - |
patents.date.priority | 2007-12-12 US 11/954947 | - |
patents.date.priority | 2009-07-10 US 12/501136 | - |
patents.description.cc | us | - |
patents.relation.family | CN 101395281 (A) 2009-03-25 | - |
patents.relation.family | CN 102165073 (A) 2011-08-24 | - |
patents.relation.family | EP 1969146 (A1) 2008-09-17 | - |
patents.relation.family | EP 2310524 (A1) 2011-04-20 | - |
patents.relation.family | US 7932029 (B1) 2011-04-26 | - |
patents.relation.family | US 2009156431 (A1) 2009-06-18 | - |
patents.relation.family | WO 2007076726 (A1) 2007-07-12 | - |
patents.relation.family | WO 2008083554 (A1) 2008-07-17 | - |
patents.relation.family | WO 2010003316 (A1) 2010-01-14 | - |
patents.relation.family | AT 483804 (T) 2010-10-15 | - |
patents.relation.family | U S8329400 (B2) 2012-12-11 | - |
patents.description.kind | A1 | - |
patents.type | Patent_granted | - |