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  <Article>
    <Journal>
      <PublisherName>emergentresearch</PublisherName>
      <JournalTitle>Emergent Life Sciences Research</JournalTitle>
      <PISSN>2395-6658 (</PISSN>
      <EISSN>) 2395-664X (Print)</EISSN>
      <Volume-Issue/>
      <PartNumber/>
      <IssueTopic>Multidisciplinary</IssueTopic>
      <IssueLanguage>English</IssueLanguage>
      <Season/>
      <SpecialIssue>N</SpecialIssue>
      <SupplementaryIssue>N</SupplementaryIssue>
      <IssueOA>Y</IssueOA>
      <PubDate>
        <Year>-0001</Year>
        <Month>11</Month>
        <Day>30</Day>
      </PubDate>
      <ArticleType>Research Article</ArticleType>
      <ArticleTitle>Isolation, characterization and effect of bioformulation on bacterial isolate derived from e-waste enriched soil</ArticleTitle>
      <SubTitle/>
      <ArticleLanguage>English</ArticleLanguage>
      <ArticleOA>Y</ArticleOA>
      <FirstPage>0</FirstPage>
      <LastPage>0</LastPage>
      <AuthorList>
        <Author>
          <FirstName>Moumita</FirstName>
          <LastName>Chakraborty</LastName>
          <AuthorLanguage>English</AuthorLanguage>
          <Affiliation/>
          <CorrespondingAuthor>N</CorrespondingAuthor>
          <ORCID/>
        </Author>
      </AuthorList>
      <DOI/>
      <Abstract>Existing conventional practices for e-waste management are harmful to deal with; as a result, using an enrichment culture method, indigenous soil bacteria were investigated for e-waste treatment. In the presence of e-waste, soil bacteria were enhanced and findings were established through OD600 values. The isolation and characterization of e-plastic degrading bacterial isolates, as well as bacterial entrapment strategy (bioformulation) to extend their shelf life, are presented in this work. The most effective bacteria, P4, was biochemically described and immobilized using a bio-formulation made of talc and charcoal, and maintained at 25 and 4 degrees Celsius for two weeks. As a result, the talc-based formulation might be beneficial for storing and managing polymer-degrading bacteria on a wide scale to reduce solid waste disposal. More research is needed to determine the bacterium's action at e-waste contaminated site.</Abstract>
      <AbstractLanguage>English</AbstractLanguage>
      <Keywords>E-polymer, bioformulation, cell viability, Acrylonitrile-butadiene styrene, enrichment method</Keywords>
      <URLs>
        <Abstract>https://emergentresearch.org/ubijournal-v1copy/journals/abstract.php?article_id=14070&amp;title=Isolation, characterization and effect of bioformulation on bacterial isolate derived from e-waste enriched soil</Abstract>
      </URLs>
      <References>
        <ReferencesarticleTitle>References</ReferencesarticleTitle>
        <ReferencesfirstPage>16</ReferencesfirstPage>
        <ReferenceslastPage>19</ReferenceslastPage>
        <References/>
      </References>
    </Journal>
  </Article>
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