Abstract: A device for capturing a biometric print of a user, the user compartment including a frontal opening designed for the passage of part of a hand into said user compartment and a lateral opening allowing the passage of the thumb of the user's hand, the lateral opening extending as far as the frontal opening to form a continuous open space, the lateral opening being delimited in a direction of insertion of the user's hand into the user compartment by a user hand positioning stop.

Abstract: Methods for producing a paired tag from a nucleic acid sequence are provided in which the paired tag comprises the 5? end tag and 3? end tag of the nucleic acid sequence. In one embodiment, the nucleic acid sequence comprises two restriction endonuclease recognition sites specific for a restriction endonuclease that cleaves the nucleic acid sequence distally to the restriction endonuclease recognition sites. In another embodiment, the nucleic acid sequence further comprises restriction endonuclease recognition sites specific for a rare cutting restriction endonuclease. Methods of using paired tags are also provided. In one embodiment, paired tags are used to characterize a nucleic acid sequence. In a particular embodiment, the nucleic acid sequence is a genome. In one embodiment, the characterization of a nucleic acid sequence is karyotyping. Alternatively, in another embodiment, the characterization of a nucleic acid sequence is mapping of the sequence.

Abstract: Methods for producing a paired tag from a nucleic acid sequence are provided in which the paired tag comprises the 5? end tag and 3? end tag of the nucleic acid sequence. In one embodiment, the nucleic acid sequence comprises two restriction endonuclease recognition sites specific for a restriction endonuclease that cleaves the nucleic acid sequence distally to the restriction endonuclease recognition sites. In another embodiment, the nucleic acid sequence further comprises restriction endonuclease recognition sites specific for a rare cutting restriction endonuclease. Methods of using paired tags are also provided. In one embodiment, paired tags are used to characterize a nucleic acid sequence. In a particular embodiment, the nucleic acid sequence is a genome. In one embodiment, the characterization of a nucleic acid sequence is karyotyping. Alternatively, in another embodiment, the characterization of a nucleic acid sequence is mapping of the sequence.

Abstract: Methods for producing a paired tag from a nucleic acid sequence are provided in which the paired tag comprises the 5? end tag and 3? end tag of the nucleic acid sequence. In one embodiment, the nucleic acid sequence comprises two restriction endonuclease recognition sites specific for a restriction endonuclease that cleaves the nucleic acid sequence distally to the restriction endonuclease recognition sites. In another embodiment, the nucleic acid sequence further comprises restriction endonuclease recognition sites specific for a rare cutting restriction endonuclease. Methods of using paired tags are also provided. In one embodiment, paired tags are used to characterize a nucleic acid sequence. In a particular embodiment, the nucleic acid sequence is a genome. In one embodiment, the characterization of a nucleic acid sequence is karyotyping. Alternatively, in another embodiment, the characterization of a nucleic acid sequence is mapping of the sequence.

Abstract: Methods for producing a paired tag from a nucleic acid sequence are provided in which the paired tag comprises the 5? end tag and 3? end tag of the nucleic acid sequence. In one embodiment, the nucleic acid sequence comprises two restriction endonuclease recognition sites specific for a restriction endonuclease that cleaves the nucleic acid sequence distally to the restriction endonuclease recognition sites. In another embodiment, the nucleic acid sequence further comprises restriction endonuclease recognition sites specific for a rare cutting restriction endonuclease. Methods of using paired tags are also provided. In one embodiment, paired tags are used to characterize a nucleic acid sequence. In a particular embodiment, the nucleic acid sequence is a genome. In one embodiment, the characterization of a nucleic acid sequence is karyotyping. Alternatively, in another embodiment, the characterization of a nucleic acid sequence is mapping of the sequence.

Abstract: This invention relates to the genetics of gender discrimination in the dioecious date palm. Methods of the present invention involve analyzing DNA or RNA from a date palm plant, tissue, germplasm, or seed for the presence of (i) a nucleic acid sequence or genotype that identifies the sex of the plant, tissue, germplasm, or seed or (ii) a molecular marker in linkage disequilibrium with the nucleic acid sequence or genotype. Also disclosed are kits for selecting male and female date palm plants prior to flowering, methods of breeding a date palm plant, and a method of planting a date palm seed of a known sex.

Abstract: A pair of asymmetrical, partially double-stranded oligonucleotide adapters are provided wherein the pair of adapters comprise a first asymmetrical oligonucleotide adapter comprising a single-stranded 3? overhang and a second asymmetrical double-stranded oligonucleotide adapter comprising a single-stranded 5? overhang and at least one blocking group on the strand of said second asymmetrical oligonucleotide adapter that does not comprise the 5? overhang. Also provided are a pair of double-stranded Y oligonucleotide adapters and a pair of double-stranded bubble oligonucleotide adapters and methods of using said asymmetrical adapters for amplification of at least one double stranded nucleic acid molecule, wherein the amplification produces a plurality of amplified nucleic acid molecules having a different nucleic acid sequence at each end are also described. Also provided is a method for exponentially amplifying one strand in a double-stranded nucleic acid molecule.

Abstract: Methods for producing a paired tag from a nucleic acid sequence are provided in which the paired tag comprises the 5? end tag and 3? end tag of the nucleic acid sequence. In one embodiment, the nucleic acid sequence comprises two restriction endonuclease recognition sites specific for a restriction endonuclease that cleaves the nucleic acid sequence distally to the restriction endonuclease recognition sites. In another embodiment, the nucleic acid sequence further comprises restriction endonuclease recognition sites specific for a rare cutting restriction endonuclease. Methods of using paired tags are also provided. In one embodiment, paired tags are used to characterize a nucleic acid sequence. In a particular embodiment, the nucleic acid sequence is a genome. In one embodiment, the characterization of a nucleic acid sequence is karyotyping. Alternatively, in another embodiment, the characterization of a nucleic acid sequence is mapping of the sequence.

Abstract: A pair of asymmetrical, partially double-stranded oligonucleotide adapters are provided wherein the pair of adapters comprise a first asymmetrical oligonucleotide adapter comprising a single-stranded 3? overhang and a second asymmetrical double-stranded oligonucleotide adapter comprising a single-stranded 5? overhang and at least one blocking group on the strand of said second asymmetrical oligonucleotide adapter that does not comprise the 5? overhang. Also provided are a pair of double-stranded Y oligonucleotide adapters and a pair of double-stranded bubble oligonucleotide adapters and methods of using said asymmetrical adapters for amplification of at least one double stranded nucleic acid molecule, wherein the amplification produces a plurality of amplified nucleic acid molecules having a different nucleic acid sequence at each end are also described. Also provided is a method for exponentially amplifying one strand in a double-stranded nucleic acid molecule.

Abstract: Methods for producing a paired tag from a nucleic acid sequence are provided in which the paired tag comprises the 5? end tag and 3? end tag of the nucleic acid sequence. In one embodiment, the nucleic acid sequence comprises two restriction endonuclease recognition sites specific for a restriction endonuclease that cleaves the nucleic acid sequence distally to the restriction endonuclease recognition sites. In another embodiment, the nucleic acid sequence further comprises restriction endonuclease recognition sites specific for a rare cutting restriction endonuclease. Methods of using paired tags are also provided. In one embodiment, paired tags are used to characterize a nucleic acid sequence. In a particular embodiment, the nucleic acid sequence is a genome. In one embodiment, the characterization of a nucleic acid sequence is karyotyping. Alternatively, in another embodiment, the characterization of a nucleic acid sequence is mapping of the sequence.

Abstract: The present invention relates to isolated nucleic acids that encode polypeptides that interact with T4SS (referred to herein as “T4SS interactor nucleic acids” and “T4SS interactor polypeptides”) and complements, orthologs, portions and variants thereof. The present invention also relates to isolated T4SS interactor polypeptides, orthologs and portions thereof, and antibodies or antigen binding fragments thereof that specifically bind a T4SS interactor polypeptide. The present invention also relates to constructs and host cells comprising the nucleic acid molecules described herein. In addition, the present invention relates to uses of the nucleic acid and polypeptide molecules provided herein.

Abstract: The present invention provides methods for determining the sequence of nucleic acids encoding interacting polypeptide sequences. Two hybrid assays are carried out to select host cells containing nucleotide sequences encoding interacting proteins. The identity of the nucleotide sequences is determined by isolating the nucleotide sequences from the selected host cells and carrying out sequencing reactions on the nucleotide sequences.