TY - JOUR
T1 - Signal processing for metagenomics
T2 - Extracting information from the soup
AU - Rosen, Gail L.
AU - Sokhansanj, Bahrad A.
AU - Polikar, Robi
AU - Bruns, Mary Ann
AU - Russell, Jacob
AU - Garbarine, Elaine
AU - Essinger, Steve
AU - Yok, Non
PY - 2009
Y1 - 2009
N2 - Traditionally, studies in microbial genomics have focused on single-genomes from cultured species, thereby limiting their focus to the small percentage of species that can be cultured outside their natural environment. Fortunately, recent advances in high-throughput sequencing and computational analyses have ushered in the new field of metagenomics, which aims to decode the genomes of microbes from natural communities without the need for cultivation. Although metagenomic studies have shed a great deal of insight into bacterial diversity and coding capacity, several computational challenges remain due to the massive size and complexity of metagenomic sequence data. Current tools and techniques are reviewed in this paper which address challenges in 1) genomic fragment annotation, 2) phylogenetic reconstruction, 3) functional classification of samples, and 4) interpreting complementary metaproteomics and metametabolomics data. Also surveyed are important applications of metagenomic studies, including microbial forensics and the roles of microbial communities in shaping human health and soil ecology.
AB - Traditionally, studies in microbial genomics have focused on single-genomes from cultured species, thereby limiting their focus to the small percentage of species that can be cultured outside their natural environment. Fortunately, recent advances in high-throughput sequencing and computational analyses have ushered in the new field of metagenomics, which aims to decode the genomes of microbes from natural communities without the need for cultivation. Although metagenomic studies have shed a great deal of insight into bacterial diversity and coding capacity, several computational challenges remain due to the massive size and complexity of metagenomic sequence data. Current tools and techniques are reviewed in this paper which address challenges in 1) genomic fragment annotation, 2) phylogenetic reconstruction, 3) functional classification of samples, and 4) interpreting complementary metaproteomics and metametabolomics data. Also surveyed are important applications of metagenomic studies, including microbial forensics and the roles of microbial communities in shaping human health and soil ecology.
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U2 - 10.2174/138920209789208255
DO - 10.2174/138920209789208255
M3 - Review article
C2 - 20436876
AN - SCOPUS:70450164082
SN - 1389-2029
VL - 10
SP - 493
EP - 510
JO - Current Genomics
JF - Current Genomics
IS - 7
ER -