Metagenomic Analysis of Lysogeny in Tampa Bay: Implications for Prophage Gene Expression

Phage integrase genes often play a role in the establishment of lysogeny in temperate phage by catalyzing the integration of the phage into one of the host's replicons. To investigate temperate phage gene expression, an induced viral metagenome from Tampa Bay was sequenced by 454/Pyrosequencing...

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Main Authors: McDaniel, Lauren D., Breitbart, Mya, Mobberley, Jennifer M, Long, Amy, Haynes, Matthew, Rohwer, Forest, Paul, John
Format: Article in Journal/Newspaper
Language:unknown
Published: Digital Commons @ University of South Florida 2008
Subjects:
Life Sciences
Arctic
Online Access:https://digitalcommons.usf.edu/msc_facpub/769
https://digitalcommons.usf.edu/cgi/viewcontent.cgi?article=1775&context=msc_facpub
id ftunisfloridatam:oai:digitalcommons.usf.edu:msc_facpub-1775
record_format openpolar
spelling ftunisfloridatam:oai:digitalcommons.usf.edu:msc_facpub-1775 2023-05-15T15:14:19+02:00 Metagenomic Analysis of Lysogeny in Tampa Bay: Implications for Prophage Gene Expression McDaniel, Lauren D. Breitbart, Mya Mobberley, Jennifer M Long, Amy Haynes, Matthew Rohwer, Forest Paul, John 2008-01-01T08:00:00Z application/pdf https://digitalcommons.usf.edu/msc_facpub/769 https://digitalcommons.usf.edu/cgi/viewcontent.cgi?article=1775&context=msc_facpub unknown Digital Commons @ University of South Florida https://digitalcommons.usf.edu/msc_facpub/769 https://digitalcommons.usf.edu/cgi/viewcontent.cgi?article=1775&context=msc_facpub Marine Science Faculty Publications Life Sciences article 2008 ftunisfloridatam 2021-10-09T07:50:27Z Phage integrase genes often play a role in the establishment of lysogeny in temperate phage by catalyzing the integration of the phage into one of the host's replicons. To investigate temperate phage gene expression, an induced viral metagenome from Tampa Bay was sequenced by 454/Pyrosequencing. The sequencing yielded 294,068 reads with 6.6% identifiable. One hundred-three sequences had significant similarity to integrases by BLASTX analysis (e≤0.001). Four sequences with strongest amino-acid level similarity to integrases were selected and real-time PCR primers and probes were designed. Initial testing with microbial fraction DNA from Tampa Bay revealed 1.9×107, and 1300 gene copies of Vibrio-like integrase and Oceanicola-like integrase L−1 respectively. The other two integrases were not detected. The integrase assay was then tested on microbial fraction RNA extracted from 200 ml of Tampa Bay water sampled biweekly over a 12 month time series. Vibrio-like integrase gene expression was detected in three samples, with estimated copy numbers of 2.4-1280 L−1. Clostridium-like integrase gene expression was detected in 6 samples, with estimated copy numbers of 37 to 265 L−1. In all cases, detection of integrase gene expression corresponded to the occurrence of lysogeny as detected by prophage induction. Investigation of the environmental distribution of the two expressed integrases in the Global Ocean Survey Database found the Vibrio-like integrase was present in genome equivalents of 3.14% of microbial libraries and all four viral metagenomes. There were two similar genes in the library from British Columbia and one similar gene was detected in both the Gulf of Mexico and Sargasso Sea libraries. In contrast, in the Arctic library eleven similar genes were observed. The Clostridium-like integrase was less prevalent, being found in 0.58% of the microbial and none of the viral libraries. These results underscore the value of metagenomic data in discovering signature genes that play important roles in the environment through their expression, as demonstrated by integrases in lysogeny. Article in Journal/Newspaper Arctic Digital Commons University of South Florida (USF) Arctic
institution Open Polar
collection Digital Commons University of South Florida (USF)
op_collection_id ftunisfloridatam
language unknown
topic Life Sciences
spellingShingle Life Sciences
McDaniel, Lauren D.
Breitbart, Mya
Mobberley, Jennifer M
Long, Amy
Haynes, Matthew
Rohwer, Forest
Paul, John
Metagenomic Analysis of Lysogeny in Tampa Bay: Implications for Prophage Gene Expression
topic_facet Life Sciences
description Phage integrase genes often play a role in the establishment of lysogeny in temperate phage by catalyzing the integration of the phage into one of the host's replicons. To investigate temperate phage gene expression, an induced viral metagenome from Tampa Bay was sequenced by 454/Pyrosequencing. The sequencing yielded 294,068 reads with 6.6% identifiable. One hundred-three sequences had significant similarity to integrases by BLASTX analysis (e≤0.001). Four sequences with strongest amino-acid level similarity to integrases were selected and real-time PCR primers and probes were designed. Initial testing with microbial fraction DNA from Tampa Bay revealed 1.9×107, and 1300 gene copies of Vibrio-like integrase and Oceanicola-like integrase L−1 respectively. The other two integrases were not detected. The integrase assay was then tested on microbial fraction RNA extracted from 200 ml of Tampa Bay water sampled biweekly over a 12 month time series. Vibrio-like integrase gene expression was detected in three samples, with estimated copy numbers of 2.4-1280 L−1. Clostridium-like integrase gene expression was detected in 6 samples, with estimated copy numbers of 37 to 265 L−1. In all cases, detection of integrase gene expression corresponded to the occurrence of lysogeny as detected by prophage induction. Investigation of the environmental distribution of the two expressed integrases in the Global Ocean Survey Database found the Vibrio-like integrase was present in genome equivalents of 3.14% of microbial libraries and all four viral metagenomes. There were two similar genes in the library from British Columbia and one similar gene was detected in both the Gulf of Mexico and Sargasso Sea libraries. In contrast, in the Arctic library eleven similar genes were observed. The Clostridium-like integrase was less prevalent, being found in 0.58% of the microbial and none of the viral libraries. These results underscore the value of metagenomic data in discovering signature genes that play important roles in the environment through their expression, as demonstrated by integrases in lysogeny.
format Article in Journal/Newspaper
author McDaniel, Lauren D.
Breitbart, Mya
Mobberley, Jennifer M
Long, Amy
Haynes, Matthew
Rohwer, Forest
Paul, John
author_facet McDaniel, Lauren D.
Breitbart, Mya
Mobberley, Jennifer M
Long, Amy
Haynes, Matthew
Rohwer, Forest
Paul, John
author_sort McDaniel, Lauren D.
title Metagenomic Analysis of Lysogeny in Tampa Bay: Implications for Prophage Gene Expression
title_short Metagenomic Analysis of Lysogeny in Tampa Bay: Implications for Prophage Gene Expression
title_full Metagenomic Analysis of Lysogeny in Tampa Bay: Implications for Prophage Gene Expression
title_fullStr Metagenomic Analysis of Lysogeny in Tampa Bay: Implications for Prophage Gene Expression
title_full_unstemmed Metagenomic Analysis of Lysogeny in Tampa Bay: Implications for Prophage Gene Expression
title_sort metagenomic analysis of lysogeny in tampa bay: implications for prophage gene expression
publisher Digital Commons @ University of South Florida
publishDate 2008
url https://digitalcommons.usf.edu/msc_facpub/769
https://digitalcommons.usf.edu/cgi/viewcontent.cgi?article=1775&context=msc_facpub
geographic Arctic
geographic_facet Arctic
genre Arctic
genre_facet Arctic
op_source Marine Science Faculty Publications
op_relation https://digitalcommons.usf.edu/msc_facpub/769
https://digitalcommons.usf.edu/cgi/viewcontent.cgi?article=1775&context=msc_facpub
_version_ 1766344775284293632

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