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Paper Details

Outcome of older patients with acute myeloid leukemia in first relapse.
Am J Hematol
41
2013

Datasets

Allele Frequency AggregatorThe NCBI Allele Frequency Aggregator (ALFA) seeks to make allele frequency datasets from dbGaP studies the largest and most complete aggregated variant datasets available as open-access. Over two million individuals, up to billions of variations, thousands of phenotypes, and molecular test datasets make up the database dbGaP. Huge opportunities exist to investigate and research genetic differences within human populations and to find genetic factors that affect health and diseases in order to enhance diagnosis, treatment, and prevention.Link
Allele Frequency AggregatorThe NCBI Allele Frequency Aggregator (ALFA) seeks to make allele frequency datasets from dbGaP studies the largest and most complete aggregated variant datasets available as open-access. Over two million individuals, up to billions of variations, thousands of phenotypes, and molecular test datasets make up the database dbGaP. Huge opportunities exist to investigate and research genetic differences within human populations and to find genetic factors that affect health and diseases in order to enhance diagnosis, treatment, and prevention.Link
Allele Frequency AggregatorThe NCBI Allele Frequency Aggregator (ALFA) seeks to make allele frequency datasets from dbGaP studies the largest and most complete aggregated variant datasets available as open-access. Over two million individuals, up to billions of variations, thousands of phenotypes, and molecular test datasets make up the database dbGaP. Huge opportunities exist to investigate and research genetic differences within human populations and to find genetic factors that affect health and diseases in order to enhance diagnosis, treatment, and prevention.Link
Allele Frequency AggregatorThe NCBI Allele Frequency Aggregator (ALFA) seeks to make allele frequency datasets from dbGaP studies the largest and most complete aggregated variant datasets available as open-access. Over two million individuals, up to billions of variations, thousands of phenotypes, and molecular test datasets make up the database dbGaP. Huge opportunities exist to investigate and research genetic differences within human populations and to find genetic factors that affect health and diseases in order to enhance diagnosis, treatment, and prevention.Link
Allele Frequency AggregatorThe NCBI Allele Frequency Aggregator (ALFA) seeks to make allele frequency datasets from dbGaP studies the largest and most complete aggregated variant datasets available as open-access. Over two million individuals, up to billions of variations, thousands of phenotypes, and molecular test datasets make up the database dbGaP. Huge opportunities exist to investigate and research genetic differences within human populations and to find genetic factors that affect health and diseases in order to enhance diagnosis, treatment, and prevention.Link
Allele Frequency AggregatorThe NCBI Allele Frequency Aggregator (ALFA) seeks to make allele frequency datasets from dbGaP studies the largest and most complete aggregated variant datasets available as open-access. Over two million individuals, up to billions of variations, thousands of phenotypes, and molecular test datasets make up the database dbGaP. Huge opportunities exist to investigate and research genetic differences within human populations and to find genetic factors that affect health and diseases in order to enhance diagnosis, treatment, and prevention.Link
Allele Frequency AggregatorThe NCBI Allele Frequency Aggregator (ALFA) seeks to make allele frequency datasets from dbGaP studies the largest and most complete aggregated variant datasets available as open-access. Over two million individuals, up to billions of variations, thousands of phenotypes, and molecular test datasets make up the database dbGaP. Huge opportunities exist to investigate and research genetic differences within human populations and to find genetic factors that affect health and diseases in order to enhance diagnosis, treatment, and prevention.Link
Allele Frequency AggregatorThe NCBI Allele Frequency Aggregator (ALFA) seeks to make allele frequency datasets from dbGaP studies the largest and most complete aggregated variant datasets available as open-access. Over two million individuals, up to billions of variations, thousands of phenotypes, and molecular test datasets make up the database dbGaP. Huge opportunities exist to investigate and research genetic differences within human populations and to find genetic factors that affect health and diseases in order to enhance diagnosis, treatment, and prevention.Link
Allele Frequency AggregatorThe NCBI Allele Frequency Aggregator (ALFA) seeks to make allele frequency datasets from dbGaP studies the largest and most complete aggregated variant datasets available as open-access. Over two million individuals, up to billions of variations, thousands of phenotypes, and molecular test datasets make up the database dbGaP. Huge opportunities exist to investigate and research genetic differences within human populations and to find genetic factors that affect health and diseases in order to enhance diagnosis, treatment, and prevention.Link
Allele Frequency AggregatorThe NCBI Allele Frequency Aggregator (ALFA) seeks to make allele frequency datasets from dbGaP studies the largest and most complete aggregated variant datasets available as open-access. Over two million individuals, up to billions of variations, thousands of phenotypes, and molecular test datasets make up the database dbGaP. Huge opportunities exist to investigate and research genetic differences within human populations and to find genetic factors that affect health and diseases in order to enhance diagnosis, treatment, and prevention.Link
Allele Frequency AggregatorThe NCBI Allele Frequency Aggregator (ALFA) seeks to make allele frequency datasets from dbGaP studies the largest and most complete aggregated variant datasets available as open-access. Over two million individuals, up to billions of variations, thousands of phenotypes, and molecular test datasets make up the database dbGaP. Huge opportunities exist to investigate and research genetic differences within human populations and to find genetic factors that affect health and diseases in order to enhance diagnosis, treatment, and prevention.Link