PHB - degrading Streptomyces sp. SSM 5670 isolation, characterization and PHB - accumulation

PHB - degrading Streptomyces sp. SSM 5670 isolation, characterization and PHB - accumulation

New microbial bioprospecting has become an important way to find new polyhydroxyalkanoate [PHA] producers and degraders. Poly [3-hydroxybutyrate] [PHB], the best known member of the PHAs, has received much attention because it can be degraded completely in different environments without forming any toxic products. In this contribution an actinomycete, designated strain SSM 5670, showed the better response for PHB degradation by the clear-zone method. Nevertheless, it produces PHB in low amounts [5.6 percent dry cell weight]. According to the phylogenetic analysis the strain most similar to the PHB-degrading isolate SSM 5670 was Streptomyces omiyaensis NBRC13449. The selected isolate was characterized by its cultural, morphological and physio-biochemical features and deposited in an Argentine culture collection under the name Streptomyces omiyaensis SSM 5670.

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Bibliographic Details
Main Authors: Yashchuk, O., Miyazaki, Silvia Susana, Hermida, E. B.
Format: Texto biblioteca
Language:spa
Subjects:16S RDNA ANALYSIS, ACCUMULATION, ANTIBIOTIC AGENT, ANTIFUNGAL ACTIVITY, ANTIMICROBIAL ACTIVITY, ARABINOSE, ASPERGILLUS NIGER, BACILLUS SUBTILIS, BACTERIUM CULTURE, BACTERIUM ISOLATION, CARBON SOURCE, CASEIN, CHARACTERIZATION, CONTROLLED STUDY, DNA 16S, ENERGY RESOURCE, ESCHERICHIA COLI, FERMENTATION, FRUCTOSE, GALACTOSE, GLUCOSE, HYDROLYSIS, INOSITOL, ISOLATION, KOCURIA, KOCURIA RHIZOPHILA, MANNITOL, MICROBIAL DEGRADATION, MYCELIUM, NITRIC ACID DERIVATIVE, NITRITE, NONHUMAN, NUCLEOTIDE SEQUENCE, PHYLOGENETIC TREE, PHYLOGENY, POLY[3 HYDROXYBUTYRIC ACID], POLY[3-HYDROXYBUTYRATE], RAFFINOSE, RHAMNOSE, SACCHAROMYCES CEREVISIAE, SCREENING, SODIUM CHLORIDE, SPOROGENESIS, STARCH, STREPTOMYCES, STREPTOMYCES NARBONENSIS, STREPTOMYCES OMIYAENSIS, STREPTOMYCES TANASHIENSIS, STREPTOMYCES WEDMORENSIS, STREPTOMYCIN, SUCROSE, SURFACE PROPERTY, XYLOSE,
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spelling KOHA-OAI-AGRO:471272021-07-28T15:19:21Zhttp://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=47127http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=AAGPHB - degrading Streptomyces sp. SSM 5670 isolation, characterization and PHB - accumulationYashchuk, O.Miyazaki, Silvia SusanaHermida, E. B.textspaapplication/pdfNew microbial bioprospecting has become an important way to find new polyhydroxyalkanoate [PHA] producers and degraders. Poly [3-hydroxybutyrate] [PHB], the best known member of the PHAs, has received much attention because it can be degraded completely in different environments without forming any toxic products. In this contribution an actinomycete, designated strain SSM 5670, showed the better response for PHB degradation by the clear-zone method. Nevertheless, it produces PHB in low amounts [5.6 percent dry cell weight]. According to the phylogenetic analysis the strain most similar to the PHB-degrading isolate SSM 5670 was Streptomyces omiyaensis NBRC13449. The selected isolate was characterized by its cultural, morphological and physio-biochemical features and deposited in an Argentine culture collection under the name Streptomyces omiyaensis SSM 5670.New microbial bioprospecting has become an important way to find new polyhydroxyalkanoate [PHA] producers and degraders. Poly [3-hydroxybutyrate] [PHB], the best known member of the PHAs, has received much attention because it can be degraded completely in different environments without forming any toxic products. In this contribution an actinomycete, designated strain SSM 5670, showed the better response for PHB degradation by the clear-zone method. Nevertheless, it produces PHB in low amounts [5.6 percent dry cell weight]. According to the phylogenetic analysis the strain most similar to the PHB-degrading isolate SSM 5670 was Streptomyces omiyaensis NBRC13449. The selected isolate was characterized by its cultural, morphological and physio-biochemical features and deposited in an Argentine culture collection under the name Streptomyces omiyaensis SSM 5670.16S RDNA ANALYSISACCUMULATIONANTIBIOTIC AGENTANTIFUNGAL ACTIVITYANTIMICROBIAL ACTIVITYARABINOSEASPERGILLUS NIGERBACILLUS SUBTILISBACTERIUM CULTUREBACTERIUM ISOLATIONCARBON SOURCECASEINCHARACTERIZATIONCONTROLLED STUDYDNA 16SENERGY RESOURCEESCHERICHIA COLIFERMENTATIONFRUCTOSEGALACTOSEGLUCOSEHYDROLYSISINOSITOLISOLATIONKOCURIAKOCURIA RHIZOPHILAMANNITOLMICROBIAL DEGRADATIONMYCELIUMNITRIC ACID DERIVATIVENITRITENONHUMANNUCLEOTIDE SEQUENCEPHYLOGENETIC TREEPHYLOGENYPOLY[3 HYDROXYBUTYRIC ACID]POLY[3-HYDROXYBUTYRATE]RAFFINOSERHAMNOSESACCHAROMYCES CEREVISIAESCREENINGSODIUM CHLORIDESPOROGENESISSTARCHSTREPTOMYCESSTREPTOMYCES NARBONENSISSTREPTOMYCES OMIYAENSISSTREPTOMYCES TANASHIENSISSTREPTOMYCES WEDMORENSISSTREPTOMYCINSUCROSESURFACE PROPERTYXYLOSEJournal of Pure and Applied Microbiology
institution UBA FA
collection Koha
country Argentina
countrycode AR
component Bibliográfico
access En linea
En linea
databasecode cat-ceiba
tag biblioteca
region America del Sur
libraryname Biblioteca Central FAUBA
language spa
topic 16S RDNA ANALYSIS
ACCUMULATION
ANTIBIOTIC AGENT
ANTIFUNGAL ACTIVITY
ANTIMICROBIAL ACTIVITY
ARABINOSE
ASPERGILLUS NIGER
BACILLUS SUBTILIS
BACTERIUM CULTURE
BACTERIUM ISOLATION
CARBON SOURCE
CASEIN
CHARACTERIZATION
CONTROLLED STUDY
DNA 16S
ENERGY RESOURCE
ESCHERICHIA COLI
FERMENTATION
FRUCTOSE
GALACTOSE
GLUCOSE
HYDROLYSIS
INOSITOL
ISOLATION
KOCURIA
KOCURIA RHIZOPHILA
MANNITOL
MICROBIAL DEGRADATION
MYCELIUM
NITRIC ACID DERIVATIVE
NITRITE
NONHUMAN
NUCLEOTIDE SEQUENCE
PHYLOGENETIC TREE
PHYLOGENY
POLY[3 HYDROXYBUTYRIC ACID]
POLY[3-HYDROXYBUTYRATE]
RAFFINOSE
RHAMNOSE
SACCHAROMYCES CEREVISIAE
SCREENING
SODIUM CHLORIDE
SPOROGENESIS
STARCH
STREPTOMYCES
STREPTOMYCES NARBONENSIS
STREPTOMYCES OMIYAENSIS
STREPTOMYCES TANASHIENSIS
STREPTOMYCES WEDMORENSIS
STREPTOMYCIN
SUCROSE
SURFACE PROPERTY
XYLOSE
16S RDNA ANALYSIS
ACCUMULATION
ANTIBIOTIC AGENT
ANTIFUNGAL ACTIVITY
ANTIMICROBIAL ACTIVITY
ARABINOSE
ASPERGILLUS NIGER
BACILLUS SUBTILIS
BACTERIUM CULTURE
BACTERIUM ISOLATION
CARBON SOURCE
CASEIN
CHARACTERIZATION
CONTROLLED STUDY
DNA 16S
ENERGY RESOURCE
ESCHERICHIA COLI
FERMENTATION
FRUCTOSE
GALACTOSE
GLUCOSE
HYDROLYSIS
INOSITOL
ISOLATION
KOCURIA
KOCURIA RHIZOPHILA
MANNITOL
MICROBIAL DEGRADATION
MYCELIUM
NITRIC ACID DERIVATIVE
NITRITE
NONHUMAN
NUCLEOTIDE SEQUENCE
PHYLOGENETIC TREE
PHYLOGENY
POLY[3 HYDROXYBUTYRIC ACID]
POLY[3-HYDROXYBUTYRATE]
RAFFINOSE
RHAMNOSE
SACCHAROMYCES CEREVISIAE
SCREENING
SODIUM CHLORIDE
SPOROGENESIS
STARCH
STREPTOMYCES
STREPTOMYCES NARBONENSIS
STREPTOMYCES OMIYAENSIS
STREPTOMYCES TANASHIENSIS
STREPTOMYCES WEDMORENSIS
STREPTOMYCIN
SUCROSE
SURFACE PROPERTY
XYLOSE
spellingShingle 16S RDNA ANALYSIS
ACCUMULATION
ANTIBIOTIC AGENT
ANTIFUNGAL ACTIVITY
ANTIMICROBIAL ACTIVITY
ARABINOSE
ASPERGILLUS NIGER
BACILLUS SUBTILIS
BACTERIUM CULTURE
BACTERIUM ISOLATION
CARBON SOURCE
CASEIN
CHARACTERIZATION
CONTROLLED STUDY
DNA 16S
ENERGY RESOURCE
ESCHERICHIA COLI
FERMENTATION
FRUCTOSE
GALACTOSE
GLUCOSE
HYDROLYSIS
INOSITOL
ISOLATION
KOCURIA
KOCURIA RHIZOPHILA
MANNITOL
MICROBIAL DEGRADATION
MYCELIUM
NITRIC ACID DERIVATIVE
NITRITE
NONHUMAN
NUCLEOTIDE SEQUENCE
PHYLOGENETIC TREE
PHYLOGENY
POLY[3 HYDROXYBUTYRIC ACID]
POLY[3-HYDROXYBUTYRATE]
RAFFINOSE
RHAMNOSE
SACCHAROMYCES CEREVISIAE
SCREENING
SODIUM CHLORIDE
SPOROGENESIS
STARCH
STREPTOMYCES
STREPTOMYCES NARBONENSIS
STREPTOMYCES OMIYAENSIS
STREPTOMYCES TANASHIENSIS
STREPTOMYCES WEDMORENSIS
STREPTOMYCIN
SUCROSE
SURFACE PROPERTY
XYLOSE
16S RDNA ANALYSIS
ACCUMULATION
ANTIBIOTIC AGENT
ANTIFUNGAL ACTIVITY
ANTIMICROBIAL ACTIVITY
ARABINOSE
ASPERGILLUS NIGER
BACILLUS SUBTILIS
BACTERIUM CULTURE
BACTERIUM ISOLATION
CARBON SOURCE
CASEIN
CHARACTERIZATION
CONTROLLED STUDY
DNA 16S
ENERGY RESOURCE
ESCHERICHIA COLI
FERMENTATION
FRUCTOSE
GALACTOSE
GLUCOSE
HYDROLYSIS
INOSITOL
ISOLATION
KOCURIA
KOCURIA RHIZOPHILA
MANNITOL
MICROBIAL DEGRADATION
MYCELIUM
NITRIC ACID DERIVATIVE
NITRITE
NONHUMAN
NUCLEOTIDE SEQUENCE
PHYLOGENETIC TREE
PHYLOGENY
POLY[3 HYDROXYBUTYRIC ACID]
POLY[3-HYDROXYBUTYRATE]
RAFFINOSE
RHAMNOSE
SACCHAROMYCES CEREVISIAE
SCREENING
SODIUM CHLORIDE
SPOROGENESIS
STARCH
STREPTOMYCES
STREPTOMYCES NARBONENSIS
STREPTOMYCES OMIYAENSIS
STREPTOMYCES TANASHIENSIS
STREPTOMYCES WEDMORENSIS
STREPTOMYCIN
SUCROSE
SURFACE PROPERTY
XYLOSE
Yashchuk, O.
Miyazaki, Silvia Susana
Hermida, E. B.
PHB - degrading Streptomyces sp. SSM 5670 isolation, characterization and PHB - accumulation
description New microbial bioprospecting has become an important way to find new polyhydroxyalkanoate [PHA] producers and degraders. Poly [3-hydroxybutyrate] [PHB], the best known member of the PHAs, has received much attention because it can be degraded completely in different environments without forming any toxic products. In this contribution an actinomycete, designated strain SSM 5670, showed the better response for PHB degradation by the clear-zone method. Nevertheless, it produces PHB in low amounts [5.6 percent dry cell weight]. According to the phylogenetic analysis the strain most similar to the PHB-degrading isolate SSM 5670 was Streptomyces omiyaensis NBRC13449. The selected isolate was characterized by its cultural, morphological and physio-biochemical features and deposited in an Argentine culture collection under the name Streptomyces omiyaensis SSM 5670.
format Texto
topic_facet 16S RDNA ANALYSIS
ACCUMULATION
ANTIBIOTIC AGENT
ANTIFUNGAL ACTIVITY
ANTIMICROBIAL ACTIVITY
ARABINOSE
ASPERGILLUS NIGER
BACILLUS SUBTILIS
BACTERIUM CULTURE
BACTERIUM ISOLATION
CARBON SOURCE
CASEIN
CHARACTERIZATION
CONTROLLED STUDY
DNA 16S
ENERGY RESOURCE
ESCHERICHIA COLI
FERMENTATION
FRUCTOSE
GALACTOSE
GLUCOSE
HYDROLYSIS
INOSITOL
ISOLATION
KOCURIA
KOCURIA RHIZOPHILA
MANNITOL
MICROBIAL DEGRADATION
MYCELIUM
NITRIC ACID DERIVATIVE
NITRITE
NONHUMAN
NUCLEOTIDE SEQUENCE
PHYLOGENETIC TREE
PHYLOGENY
POLY[3 HYDROXYBUTYRIC ACID]
POLY[3-HYDROXYBUTYRATE]
RAFFINOSE
RHAMNOSE
SACCHAROMYCES CEREVISIAE
SCREENING
SODIUM CHLORIDE
SPOROGENESIS
STARCH
STREPTOMYCES
STREPTOMYCES NARBONENSIS
STREPTOMYCES OMIYAENSIS
STREPTOMYCES TANASHIENSIS
STREPTOMYCES WEDMORENSIS
STREPTOMYCIN
SUCROSE
SURFACE PROPERTY
XYLOSE
author Yashchuk, O.
Miyazaki, Silvia Susana
Hermida, E. B.
author_facet Yashchuk, O.
Miyazaki, Silvia Susana
Hermida, E. B.
author_sort Yashchuk, O.
title PHB - degrading Streptomyces sp. SSM 5670 isolation, characterization and PHB - accumulation
title_short PHB - degrading Streptomyces sp. SSM 5670 isolation, characterization and PHB - accumulation
title_full PHB - degrading Streptomyces sp. SSM 5670 isolation, characterization and PHB - accumulation
title_fullStr PHB - degrading Streptomyces sp. SSM 5670 isolation, characterization and PHB - accumulation
title_full_unstemmed PHB - degrading Streptomyces sp. SSM 5670 isolation, characterization and PHB - accumulation
title_sort phb - degrading streptomyces sp. ssm 5670 isolation, characterization and phb - accumulation
url http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=47127
http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=
work_keys_str_mv AT yashchuko phbdegradingstreptomycesspssm5670isolationcharacterizationandphbaccumulation
AT miyazakisilviasusana phbdegradingstreptomycesspssm5670isolationcharacterizationandphbaccumulation
AT hermidaeb phbdegradingstreptomycesspssm5670isolationcharacterizationandphbaccumulation
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