Abstract: The invention is directed to isolated genomic polynucleotide fragments that encode human carboxypeptidase M and human mouse double minute 2 homolog, vectors and hosts containing these fragments and fragments hybridizing to noncoding regions as well as antisense oligonucleotides to these fragments. The invention is further directed to methods of using these fragments to obtain human carboxypeptidase M and human mouse double minute 2 homolog and to diagnose, treat, prevent and/or ameliorate a pathological disorder.
Abstract: Provided are isolated genomic polynucleotide fragments that encode human SNARE YKT6, human glucokinase, human adipocyte enhancer binding protein (AEBP1) and DNA directed 50 kD regulatory subunit (POLD2), vectors and hosts containing these fragments and fragments hybridizing to noncoding regions as well as antisense oligonucleotides to these fragments. The invention is further directed to methods of using these fragments to obtain SNARE YKT6, human glucokinase, AEBP1 protein and POLD2 and to diagnose, treat, prevent and/or ameliorate a pathological disorder.
Abstract: Provided are isolated genomic polynucleotide fragments that encode human SNARE YKT6, human glucokinase, human adipocyte enhancer binding protein (AEBP1) and DNA directed 50 kD regulatory subunit (POLD2), vectors and hosts containing these fragments and fragments hybridizing to noncoding regions as well as antisense oligonucleotides to these fragments. The invention is further directed to methods of using these fragments to obtain SNARE YKT6, human glucokinase, AEBP1 protein and POLD2 and to diagnose, treat, prevent and/or ameliorate a pathological disorder.
Abstract: The invention is directed to isolated genomic polynucleotide fragments that encode human carboxypeptidase M and human mouse double minute 2 homolog, vectors and hosts containing these fragments and fragments hybridizing to noncoding regions as well as antisense oligonucleotides to these fragments. The invention is further directed to methods of using these fragments to obtain human carboxypeptidase M and human mouse double minute 2 homolog and to diagnose, treat, prevent and/or ameliorate a pathological disorder.
Abstract: Provided herein are isolated genomic polynucleotide fragments from the from the p15 region of chromosome 11 encoding human and tumor suppressing subtransferable candidate 4 (TSSC4) and methods of use.
Abstract: Provided herein are isolated genomic polynucleotide fragments from the from the p15 region of chromosome 11 encoding human SMS3 (SMS3) and methods of use.
Abstract: Provided herein are isolated genomic polynucleotide fragments from the from the p15 region of chromosome 11 encoding human and tumor suppressing subtransferable candidate 4 (TSSC4) and methods of use.
Abstract: Provided herein are isolated genomic polynucleotide fragments from the from the p15 region of chromosome 11 encoding human tumor suppressing subtransferable candidate 6 and methods of use.
Abstract: Provided herein are isolated genomic polynucleotide fragments from the from the p15 region of chromosome 11 encoding human ribosomal protein L26 (RIBO26) and methods of use.
Abstract: The invention is directed to isolated genomic polynucleotide fragments that encode human carboxypeptidase M and human mouse double minute 2 homolog, vectors and hosts containing these fragments and fragments hybridizing to noncoding regions as well as antisense oligonucleotides to these fragments. The invention is further directed to methods of using these fragments to obtain human carboxypeptidase M and human mouse double minute 2 homolog and to diagnose, treat, prevent and/or ameliorate a pathological disorder.
Abstract: Provided are isolated genomic polynucleotide fragments that encode human SNARE YKT6, human glucokinase, human adipocyte enhancer binding protein (AEBP1) and DNA directed 50 kD regulatory subunit (POLD2), vectors and hosts containing these fragments and fragments hybridizing to noncoding regions as well as antisense oligonucleotides to these fragments. The invention is further directed to methods of using these fragments to obtain SNARE YKT6, human glucokinase, AEBP1 protein and POLD2 and to diagnose, treat, prevent and/or ameliorate a pathological disorder.
Abstract: Provided are isolated genomic polynucleotide fragments that encode human SNARE YKT6, human glucokinase, human adipocyte enhancer binding protein (AEBP1) and DNA directed 50 kD regulatory subunit (POLD2), vectors and hosts containing these fragments and fragments hybridizing to noncoding regions as well as antisense oligonucleotides to these fragments. The invention is further directed to methods of using these fragments to obtain SNARE YKT6, human glucokinase, AEBP1 protein and POLD2 and to diagnose, treat, prevent and/or ameliorate a pathological disorder.
Abstract: Provided are isolated genomic polynucleotide fragments that encode human SNARE YKT6, human glucokinase, human adipocyte enhancer binding protein (AEBP1) and DNA directed 50kD regulatory subunit (POLD2), vectors and hosts containing these fragments and fragments hybridizing to noncoding regions as well as antisense oligonucleotides to these fragments. The invention is further directed to methods of using these fragments to obtain SNARE YKT6, human glucokinase, AEBP1 protein and POLD2 and to diagnose, treat, prevent and/or ameliorate a pathological disorder.
Abstract: The invention is directed to isolated genomic polynucleotide fragments that encode human carboxypeptidase M and human mouse double minute 2 homolog, vectors and hosts containing these fragments and fragments hybridizing to noncoding regions as well as antisense oligonucleotides to these fragments. The invention is further directed to methods of using these fragments to obtain human carboxypeptidase M and human mouse double minute 2 homolog and to diagnose, treat, prevent and/or ameliorate a pathological disorder.
Abstract: Provided herein are isolated genomic polynucleotide fragments from the from the p15 region of chromosome 11 encoding human tumor suppressing subtransferable candidate 6 and methods of use.
Abstract: Provided herein are isolated genomic polynucleotide fragments from the from the p15 region of chromosome 11 encoding human ribosomal protein L26 (RIBO26) and methods of use.