+ Follow BIOINFORMATICS Tag
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[ArticleID] => 1315112
[Title] => IBM provides super computer to bioinformatics facility
[Summary] => The Philippine Genome Center of the University of the Philippines officially opened (April 14) its Core Facility for Bioinformatics to provide local scientists and researchers a suite of services for genome-scale data generation and analysis.
[DatePublished] => 2014-04-23 00:00:00
[ColumnID] => 0
[Focus] => 0
[AuthorID] =>
[AuthorName] =>
[SectionName] => Freeman Cebu Business
[SectionUrl] => cebu-business
[URL] =>
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[1] => Array
(
[ArticleID] => 1311605
[Title] => PGC to open facility for bioinformatics
[Summary] => The Philippine Genome Center (PGC) will launch its Core Facility for Bioinformatics to provide genomics researchers and scientists with resources, hardware and software needed for biotechnology research and development.
[DatePublished] => 2014-04-12 00:00:00
[ColumnID] => 0
[Focus] => 0
[AuthorID] => 1664250
[AuthorName] => Rainier Allan Ronda
[SectionName] => Headlines
[SectionUrl] => headlines
[URL] =>
)
[2] => Array
(
[ArticleID] => 336031
[Title] => Bioinformatics for everyone
[Summary] => In 2003, after a 13-year worldwide effort called the Human Genome Project, scientists were able to determine the complete sequence of the human DNA. It is composed of some three billion units called bases, represented by the letters G, A, T and C. The sequence of these letters spells out the instructions that make us us, from the curve of our lip, to the shape of our eyes, even some of the diseases we are prone to. However, deducing the sequence of the human genome is tantamount to having a book written in a foreign language, this one with a four-letter alphabet.
[DatePublished] => 2006-05-11 00:00:00
[ColumnID] => 135735
[Focus] => 0
[AuthorID] => 1754878
[AuthorName] => STAR SCIENCE By Marla A. Endriga, M.Sc.
[SectionName] => Science and Environment
[SectionUrl] => science-and-environment
[URL] =>
)
[3] => Array
(
[ArticleID] => 266229
[Title] => Going loco over bioinfo
[Summary] => Bioinformatics? How (un?)interesting does it sound to you? How interesting could looking at and analyzing letters upon letters of DNA and protein sequences and giving a meaning to it be, or finding patterns or consensus among thousands of sequences and deducing its significance, or defining the proximity or distance between organisms, or finding the significance of a peptide from a sea of proteins perhaps tracing the lineage of a creature? These are just some of the diverse tasks that the field of bioinformatics aims to perform quickly.
[DatePublished] => 2004-10-14 00:00:00
[ColumnID] => 135735
[Focus] => 0
[AuthorID] => 1754876
[AuthorName] => STAR SCIENCE By Maria Pamela C. David
[SectionName] => Science and Environment
[SectionUrl] => science-and-environment
[URL] =>
)
)
)
BIOINFORMATICS
Array
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[results] => Array
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[0] => Array
(
[ArticleID] => 1315112
[Title] => IBM provides super computer to bioinformatics facility
[Summary] => The Philippine Genome Center of the University of the Philippines officially opened (April 14) its Core Facility for Bioinformatics to provide local scientists and researchers a suite of services for genome-scale data generation and analysis.
[DatePublished] => 2014-04-23 00:00:00
[ColumnID] => 0
[Focus] => 0
[AuthorID] =>
[AuthorName] =>
[SectionName] => Freeman Cebu Business
[SectionUrl] => cebu-business
[URL] =>
)
[1] => Array
(
[ArticleID] => 1311605
[Title] => PGC to open facility for bioinformatics
[Summary] => The Philippine Genome Center (PGC) will launch its Core Facility for Bioinformatics to provide genomics researchers and scientists with resources, hardware and software needed for biotechnology research and development.
[DatePublished] => 2014-04-12 00:00:00
[ColumnID] => 0
[Focus] => 0
[AuthorID] => 1664250
[AuthorName] => Rainier Allan Ronda
[SectionName] => Headlines
[SectionUrl] => headlines
[URL] =>
)
[2] => Array
(
[ArticleID] => 336031
[Title] => Bioinformatics for everyone
[Summary] => In 2003, after a 13-year worldwide effort called the Human Genome Project, scientists were able to determine the complete sequence of the human DNA. It is composed of some three billion units called bases, represented by the letters G, A, T and C. The sequence of these letters spells out the instructions that make us us, from the curve of our lip, to the shape of our eyes, even some of the diseases we are prone to. However, deducing the sequence of the human genome is tantamount to having a book written in a foreign language, this one with a four-letter alphabet.
[DatePublished] => 2006-05-11 00:00:00
[ColumnID] => 135735
[Focus] => 0
[AuthorID] => 1754878
[AuthorName] => STAR SCIENCE By Marla A. Endriga, M.Sc.
[SectionName] => Science and Environment
[SectionUrl] => science-and-environment
[URL] =>
)
[3] => Array
(
[ArticleID] => 266229
[Title] => Going loco over bioinfo
[Summary] => Bioinformatics? How (un?)interesting does it sound to you? How interesting could looking at and analyzing letters upon letters of DNA and protein sequences and giving a meaning to it be, or finding patterns or consensus among thousands of sequences and deducing its significance, or defining the proximity or distance between organisms, or finding the significance of a peptide from a sea of proteins perhaps tracing the lineage of a creature? These are just some of the diverse tasks that the field of bioinformatics aims to perform quickly.
[DatePublished] => 2004-10-14 00:00:00
[ColumnID] => 135735
[Focus] => 0
[AuthorID] => 1754876
[AuthorName] => STAR SCIENCE By Maria Pamela C. David
[SectionName] => Science and Environment
[SectionUrl] => science-and-environment
[URL] =>
)
)
)
abtest