IRIS publication 279397700
Novel strategies to prevent or exploit phages in fermentations, insights from phage–host interaction
RIS format for Endnote and similar
TY - JOUR - Jennifer Mahony1, Douwe van Sinderen1 - 2014 - April - Current Opinion In Biotechnology - Novel strategies to prevent or exploit phages in fermentations, insights from phage–host interaction - In Press - () - 32 - 8 - 13 - Highlights • Components involved in phage–host interactions defined in lactococcal model systems. • Understanding the molecular players can be harnessed to prevent phage infection. • Receptor-binding proteins may be used as competitive molecules to phage infection. • Phage genome sequencing identifies novel elements that can be used in fermentations. • Phage lysins are useful as remedial agents; phage promoters drive fermentations. DA - 2014/04 ER -
BIBTeX format for JabRef and similar
@article{V279397700, = {Jennifer Mahony1, Douwe van Sinderen1 }, = {2014}, = {April}, = {Current Opinion In Biotechnology}, = {Novel strategies to prevent or exploit phages in fermentations, insights from phage–host interaction}, = {In Press}, = {()}, = {32}, pages = {8--13}, = {{Highlights • Components involved in phage–host interactions defined in lactococcal model systems. • Understanding the molecular players can be harnessed to prevent phage infection. • Receptor-binding proteins may be used as competitive molecules to phage infection. • Phage genome sequencing identifies novel elements that can be used in fermentations. • Phage lysins are useful as remedial agents; phage promoters drive fermentations.}}, source = {IRIS} }
Data as stored in IRIS
AUTHORS | Jennifer Mahony1, Douwe van Sinderen1 | ||
YEAR | 2014 | ||
MONTH | April | ||
JOURNAL_CODE | Current Opinion In Biotechnology | ||
TITLE | Novel strategies to prevent or exploit phages in fermentations, insights from phage–host interaction | ||
STATUS | In Press | ||
TIMES_CITED | () | ||
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VOLUME | 32 | ||
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START_PAGE | 8 | ||
END_PAGE | 13 | ||
ABSTRACT | Highlights • Components involved in phage–host interactions defined in lactococcal model systems. • Understanding the molecular players can be harnessed to prevent phage infection. • Receptor-binding proteins may be used as competitive molecules to phage infection. • Phage genome sequencing identifies novel elements that can be used in fermentations. • Phage lysins are useful as remedial agents; phage promoters drive fermentations. | ||
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