Sphingomonas: from diversity and genomics to functional role in environmental remediation and plant growth

The species belonging to the Sphingomonas genus possess multifaceted functions ranging from remediation of environmental contaminations to producing highly beneficial phytohormones, such as sphingan and gellan gum. Recent studies have shown an intriguing role of Sphingomonas species in the degradati...

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Published in	Critical reviews in biotechnology Vol. 40; no. 2; pp. 138 - 152
Main Authors	Asaf, Sajjad, Numan, Muhammad, Khan, Abdul Latif, Al-Harrasi, Ahmed
Format	Journal Article
Language	English
Published	England Taylor & Francis 17.02.2020
Subjects	agricultural soils bioremediation biotechnology chromosome mapping drought ecology environmental remediation gellan gum genomics gibberellins heavy metals indole acetic acid metabolite transport metabolomics production organometallic compounds phylogenetic relationship phylogeny plant growth salinity Sphingomonas stress tolerance taxonomy environmental remediation plant growth ecology metabolite transport stress tolerance Sphingomonas genomics taxonomy metabolomics production phylogenetic relationship
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Abstract	The species belonging to the Sphingomonas genus possess multifaceted functions ranging from remediation of environmental contaminations to producing highly beneficial phytohormones, such as sphingan and gellan gum. Recent studies have shown an intriguing role of Sphingomonas species in the degradation of organometallic compounds. However, the actual biotechnological potential of this genus requires further assessment. Some of the species from the genus have also been noted to improve plant-growth during stress conditions such as drought, salinity, and heavy metals in agricultural soil. This role has been attributed to their potential to produce plant growth hormones e.g. gibberellins and indole acetic acid. However, the current literature is scattered, and some of the important areas, such as taxonomy, phylogenetics, genome mapping, and cellular transport systems, are still being overlooked in terms of elucidation of the mechanisms behind stress-tolerance and bioremediation. In this review, we elucidated the prospective role and function of this genus for improved utilization during environmental biotechnology.
AbstractList	The species belonging to the Sphingomonas genus possess multifaceted functions ranging from remediation of environmental contaminations to producing highly beneficial phytohormones, such as sphingan and gellan gum. Recent studies have shown an intriguing role of Sphingomonas species in the degradation of organometallic compounds. However, the actual biotechnological potential of this genus requires further assessment. Some of the species from the genus have also been noted to improve plant-growth during stress conditions such as drought, salinity, and heavy metals in agricultural soil. This role has been attributed to their potential to produce plant growth hormones e.g. gibberellins and indole acetic acid. However, the current literature is scattered, and some of the important areas, such as taxonomy, phylogenetics, genome mapping, and cellular transport systems, are still being overlooked in terms of elucidation of the mechanisms behind stress-tolerance and bioremediation. In this review, we elucidated the prospective role and function of this genus for improved utilization during environmental biotechnology. The species belonging to the Sphingomonas genus possess multifaceted functions ranging from remediation of environmental contaminations to producing highly beneficial phytohormones, such as sphingan and gellan gum. Recent studies have shown an intriguing role of Sphingomonas species in the degradation of organometallic compounds. However, the actual biotechnological potential of this genus requires further assessment. Some of the species from the genus have also been noted to improve plant-growth during stress conditions such as drought, salinity, and heavy metals in agricultural soil. This role has been attributed to their potential to produce plant growth hormones e.g. gibberellins and indole acetic acid. However, the current literature is scattered, and some of the important areas, such as taxonomy, phylogenetics, genome mapping, and cellular transport systems, are still being overlooked in terms of elucidation of the mechanisms behind stress-tolerance and bioremediation. In this review, we elucidated the prospective role and function of this genus for improved utilization during environmental biotechnology.The species belonging to the Sphingomonas genus possess multifaceted functions ranging from remediation of environmental contaminations to producing highly beneficial phytohormones, such as sphingan and gellan gum. Recent studies have shown an intriguing role of Sphingomonas species in the degradation of organometallic compounds. However, the actual biotechnological potential of this genus requires further assessment. Some of the species from the genus have also been noted to improve plant-growth during stress conditions such as drought, salinity, and heavy metals in agricultural soil. This role has been attributed to their potential to produce plant growth hormones e.g. gibberellins and indole acetic acid. However, the current literature is scattered, and some of the important areas, such as taxonomy, phylogenetics, genome mapping, and cellular transport systems, are still being overlooked in terms of elucidation of the mechanisms behind stress-tolerance and bioremediation. In this review, we elucidated the prospective role and function of this genus for improved utilization during environmental biotechnology. The species belonging to the genus possess multifaceted functions ranging from remediation of environmental contaminations to producing highly beneficial phytohormones, such as sphingan and gellan gum. Recent studies have shown an intriguing role of species in the degradation of organometallic compounds. However, the actual biotechnological potential of this genus requires further assessment. Some of the species from the genus have also been noted to improve plant-growth during stress conditions such as drought, salinity, and heavy metals in agricultural soil. This role has been attributed to their potential to produce plant growth hormones e.g. gibberellins and indole acetic acid. However, the current literature is scattered, and some of the important areas, such as taxonomy, phylogenetics, genome mapping, and cellular transport systems, are still being overlooked in terms of elucidation of the mechanisms behind stress-tolerance and bioremediation. In this review, we elucidated the prospective role and function of this genus for improved utilization during environmental biotechnology.
Author	Al-Harrasi, Ahmed Asaf, Sajjad Numan, Muhammad Khan, Abdul Latif
Author_xml	– sequence: 1 givenname: Sajjad surname: Asaf fullname: Asaf, Sajjad organization: Natural & Medical Sciences Research Center, University of Nizwa – sequence: 2 givenname: Muhammad surname: Numan fullname: Numan, Muhammad organization: Natural & Medical Sciences Research Center, University of Nizwa – sequence: 3 givenname: Abdul Latif surname: Khan fullname: Khan, Abdul Latif email: latifepm78@yahoo.co.uk, aharrasi@unizwa.edu.om organization: Natural & Medical Sciences Research Center, University of Nizwa – sequence: 4 givenname: Ahmed surname: Al-Harrasi fullname: Al-Harrasi, Ahmed organization: Natural & Medical Sciences Research Center, University of Nizwa
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/31906737$$D View this record in MEDLINE/PubMed
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Snippet	The species belonging to the Sphingomonas genus possess multifaceted functions ranging from remediation of environmental contaminations to producing highly... The species belonging to the genus possess multifaceted functions ranging from remediation of environmental contaminations to producing highly beneficial...
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SubjectTerms	agricultural soils bioremediation biotechnology chromosome mapping drought ecology environmental remediation gellan gum genomics gibberellins heavy metals indole acetic acid metabolite transport metabolomics production organometallic compounds phylogenetic relationship phylogeny plant growth salinity Sphingomonas stress tolerance taxonomy
Title	Sphingomonas: from diversity and genomics to functional role in environmental remediation and plant growth
URI	https://www.tandfonline.com/doi/abs/10.1080/07388551.2019.1709793 https://www.ncbi.nlm.nih.gov/pubmed/31906737 https://www.proquest.com/docview/2334222881 https://www.proquest.com/docview/2440696052
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