1
James Langham Dale, Peter Timms, Terence Patrick Walsh: Detection of a nucleic acid sequence or a change therein. Geneco, Marshall O Toole Gerstein Murray & Borun, January 5, 1999: US05856092 (201 worldwide citation)

A method for detecting a specific polynucleotide sequence in a material is disclosed. The method includes exposing said material to an oligonucleotide primer having a sequence complementary to part of said specific polynucleotide sequence wherein said primer binds to part of said polynucleotide sequ ...


2
Gregory John Hafner, Philip Morrison Giffard, Lindsay Colin Wolter, James Langham Dale, Mark Richard Stafford, Ilin Chen Hai Ni Yang, Joanne Voisey: Method of amplification. Molecular Staging, Needle & Rosenberg P C, December 14, 2004: US06830884 (14 worldwide citation)

The present invention relates generally to a method of amplifying closed circular nucleic acid probes and, more particularly, to a method of amplifying closed circular nucleic acid probes by rolling circle amplification. The method of the present invention is useful in a range of applications involv ...


3
Gregory John Hafner, Philip Morrison Giffard, Lindsay Colin Wolter, James Langham Dale, Mark Richard Stafford, Ilin Chen Hai Ni Yang, Joanne Voisey: Methods of forming circular nucleic acid probes and uses thereof. QIAGEN, Needle & Rosenberg P C, April 15, 2008: US07358047 (5 worldwide citation)

The present invention relates generally to a method of amplifying closed circular nucleic acid probes and, more particularly, to a method of amplifying closed circular nucleic acid probes by rolling circle amplification. The method of the present invention is useful in a range of applications involv ...


4
James Langham Dale, Robert Maxwell Harding, Benjamin Dugdale, Peter Ronald Beetham, Gregory John Hafner, Douglas Kenneth Becker: Intergenic regions of banana bunchy top virus. Queensland University of Technology, Fish & Richardson P C, October 3, 2000: US06127604 (3 worldwide citation)

The invention relates a DNA molecule which is a partial fragment of an intergenic region of a BBTV component or alternatively which DNA molecule is derived from said intergenic region whereby the DNA molecule is capable of promoting, enhancing, regulating, or modifying transcription of a non-BBTV ge ...


5
James Langham Dale, Robert Maxwell Harding, Douglas Kenneth Becker, Gregory John Hafner, Ilin Yang: TaBV transcriptional control elements, chimeric constructs and uses therefor. Queensland University of Technology, Perkins Coie, October 6, 2009: US07598366 (1 worldwide citation)

This invention discloses a constitutive promoter from the Taro bacilliform virus (TaBV) for expression of foreign or endogenous coding sequences in plants, including dicotyledonous and monocotyledonous plants. The invention also discloses a chimeric nucleic acid construct comprising the promoter of ...


6
Mirko Karan, Thomas Michael Burns, James Langham Dale, Robert Maxwell Harding: DNA sequences of banana bunchy top virus. Queensland University of Technology, Foley & Lardner, May 26, 1998: US05756708 (1 worldwide citation)

The invention provides DNA molecules consisting essentially of a nucleotide sequence or part thereof which are asosciated with the genome of banana bunchy top virus (BBTV) as illustrated in FIGS. 1 through 8 (SEQ ID NOS: 49-54, 27-37, 55-60, 38-48, and 9-23, respectively) of the specification attach ...


7
James Langham Dale, Robert Maxwell Harding, Douglas Kenneth Becker, Gregory John Hafner, Ilin Yang: TaBV transcriptional control element, chimeric constructs and uses therefor. Farmacule Bioindustries, Perkins Coie, August 16, 2016: US09416365

This invention discloses a constitutive promoter for expression of foreign or endogenous coding sequences in plants, including dicotyledonous and monocotyledonous plants. The invention also discloses a chimeric nucleic acid construct comprising the promoter of the invention operably linked to a fore ...


8
James Langham Dale, Santy Peraza Echeverria: Banana resistance genes and uses thereof. Queensland University of Technology, Knobbe Martens Olson & Bear, October 13, 2009: US07601887

The present invention relates to two banana resistant genes, RGA5 and RGA2, and methods of producing transgenic plants having resistance to fusarium by transforming the plants with RGA5 or RGA2 polynucleotide sequences. The invention also relates to plants transformed with the RGA5 or RGA2 polynucle ...


9
James Langham Dale, Benjamin Dugdale, Greg John Hafner, Scott Richard Hermann, Douglas Kenneth Becker, Robert Maxwell Harding, Srimek Chowpongpang: Construct capable of release in closed circular form from a larger nucleotide sequence permitting site specific expression and/or developmentally regulated expression of selected genetic sequences. Queensland University of Technology, Alston & Bird, January 4, 2011: US07863430

The present invention relates generally to constructs and in particular genetic constructs comprising polynucleotide sequences capable of release in covalently closed, circular form from a larger nucleotide sequence such as a genome of a eukaryotic cell. Preferably, once released, a polynucleotide s ...


10
James Langham Dale, Benjamin Dugdale, Greg John Hafner, Scott Richard Hermann, Douglas Kenneth Becker, Robert Maxwell Harding, Srimek Chowpongpang: Construct capable of release in closed circular form from a larger nucleotide sequence permitting site specific expression and/or developmentally regulated expression of selected genetic sequences. Queensland University of Technology, Alston & Bird, September 9, 2014: US08829170

The present invention relates generally to constructs and in particular genetic constructs comprising polynucleotide sequences capable of release in covalently closed, circular form from a larger nucleotide sequence such as, but not limited to, a genome of a eukaryotic cell. Preferably, once release ...