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Sea-Ice Bacteria Halomonas sp. Strain 363 and Paracoccus sp. Strain 392 Produce Multiple Types of Poly-3-Hydroxyalkaonoic Acid (PHA) Storage Polymers at Low Temperature

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Sea-Ice Bacteria Halomonas sp. Strain 363 and Paracoccus sp. Strain 392 Produce Multiple Types of Poly-3-Hydroxyalkaonoic Acid (PHA) Storage Polymers at Low Temperature. / Eronen-Rasimus, E.; Hultman, Jenni ; Hai, Tran et al.
In: Applied and Environmental Microbiology, Vol. 87, No. 17, e00929-21, 11.08.2021.

Research output: Contribution to journalArticlepeer-review

HarvardHarvard

Eronen-Rasimus, E, Hultman, J, Hai, T, Pessi, LS, Wright, S, Laine, P, Viitamaki, S, Lyra, C, Thomas, DN, Golyshin, P, Luhtanen, AM, Kuosa, H & Kaartokallio, H 2021, 'Sea-Ice Bacteria Halomonas sp. Strain 363 and Paracoccus sp. Strain 392 Produce Multiple Types of Poly-3-Hydroxyalkaonoic Acid (PHA) Storage Polymers at Low Temperature', Applied and Environmental Microbiology, vol. 87, no. 17, e00929-21. https://doi.org/10.1128/AEM.00929-21

APA

Eronen-Rasimus, E., Hultman, J., Hai, T., Pessi, L. S., Wright, S., Laine, P., Viitamaki, S., Lyra, C., Thomas, D. N., Golyshin, P., Luhtanen, A. M., Kuosa, H., & Kaartokallio, H. (2021). Sea-Ice Bacteria Halomonas sp. Strain 363 and Paracoccus sp. Strain 392 Produce Multiple Types of Poly-3-Hydroxyalkaonoic Acid (PHA) Storage Polymers at Low Temperature. Applied and Environmental Microbiology, 87(17), Article e00929-21. https://doi.org/10.1128/AEM.00929-21

CBE

Eronen-Rasimus E, Hultman J, Hai T, Pessi LS, Wright S, Laine P, Viitamaki S, Lyra C, Thomas DN, Golyshin P, et al. 2021. Sea-Ice Bacteria Halomonas sp. Strain 363 and Paracoccus sp. Strain 392 Produce Multiple Types of Poly-3-Hydroxyalkaonoic Acid (PHA) Storage Polymers at Low Temperature. Applied and Environmental Microbiology. 87(17):Article e00929-21. https://doi.org/10.1128/AEM.00929-21

MLA

Eronen-Rasimus, E. et al. "Sea-Ice Bacteria Halomonas sp. Strain 363 and Paracoccus sp. Strain 392 Produce Multiple Types of Poly-3-Hydroxyalkaonoic Acid (PHA) Storage Polymers at Low Temperature". Applied and Environmental Microbiology. 2021. 87(17). https://doi.org/10.1128/AEM.00929-21

VancouverVancouver

Eronen-Rasimus E, Hultman J, Hai T, Pessi LS, Wright S, Laine P et al. Sea-Ice Bacteria Halomonas sp. Strain 363 and Paracoccus sp. Strain 392 Produce Multiple Types of Poly-3-Hydroxyalkaonoic Acid (PHA) Storage Polymers at Low Temperature. Applied and Environmental Microbiology. 2021 Aug 11;87(17):e00929-21. Epub 2021 Jun 23. doi: 10.1128/AEM.00929-21

Author

Eronen-Rasimus, E. ; Hultman, Jenni ; Hai, Tran et al. / Sea-Ice Bacteria Halomonas sp. Strain 363 and Paracoccus sp. Strain 392 Produce Multiple Types of Poly-3-Hydroxyalkaonoic Acid (PHA) Storage Polymers at Low Temperature. In: Applied and Environmental Microbiology. 2021 ; Vol. 87, No. 17.

RIS

TY - JOUR

T1 - Sea-Ice Bacteria Halomonas sp. Strain 363 and Paracoccus sp. Strain 392 Produce Multiple Types of Poly-3-Hydroxyalkaonoic Acid (PHA) Storage Polymers at Low Temperature

AU - Eronen-Rasimus, E.

AU - Hultman, Jenni

AU - Hai, Tran

AU - Pessi, L.S.

AU - Wright, Samuel

AU - Laine, P.

AU - Viitamaki, S.

AU - Lyra, C.

AU - Thomas, D.N.

AU - Golyshin, Peter

AU - Luhtanen, A.M.

AU - Kuosa, H.

AU - Kaartokallio, H.

PY - 2021/8/11

Y1 - 2021/8/11

N2 - Poly-3-hydroxyalkanoic acids (PHAs) are bacterial storage polymers commonly used in bioplastic production. Halophilic bacteria are industrially interesting organisms, as their salinity tolerance and psychrophilic nature lowers sterility requirements and subsequent production costs. We investigated PHA synthesis in two bacterial strains, Halomonas sp. 363 and Paracoccus sp. 392, isolated from Southern Ocean sea ice and elucidated the related PHA biopolymer accumulation and composition with various approaches, such as transcriptomics, microscopy, and chromatography. We show that both bacterial strains produce PHAs at 4°C when the availability of nitrogen and/or oxygen limited growth. The genome of Halomonas sp. 363 carries three phaC synthase genes and transcribes genes along three PHA pathways (I to III), whereas Paracoccus sp. 392 carries only one phaC gene and transcribes genes along one pathway (I). Thus, Halomonas sp. 363 has a versatile repertoire of phaC genes and pathways enabling production of both short- and medium-chain-length PHA products. IMPORTANCE Plastic pollution is one of the most topical threats to the health of the oceans and seas. One recognized way to alleviate the problem is to use degradable bioplastic materials in high-risk applications. PHA is a promising bioplastic material as it is nontoxic and fully produced and degraded by bacteria. Sea ice is an interesting environment for prospecting novel PHA-producing organisms, since traits advantageous to lower production costs, such as tolerance for high salinities and low temperatures, are common. We show that two sea-ice bacteria, Halomonas sp. 363 and Paracoccus sp. 392, are able to produce various types of PHA from inexpensive carbon sources. Halomonas sp. 363 is an especially interesting PHA-producing organism, since it has three different synthesis pathways to produce both short- and medium-chain-length PHAs.

AB - Poly-3-hydroxyalkanoic acids (PHAs) are bacterial storage polymers commonly used in bioplastic production. Halophilic bacteria are industrially interesting organisms, as their salinity tolerance and psychrophilic nature lowers sterility requirements and subsequent production costs. We investigated PHA synthesis in two bacterial strains, Halomonas sp. 363 and Paracoccus sp. 392, isolated from Southern Ocean sea ice and elucidated the related PHA biopolymer accumulation and composition with various approaches, such as transcriptomics, microscopy, and chromatography. We show that both bacterial strains produce PHAs at 4°C when the availability of nitrogen and/or oxygen limited growth. The genome of Halomonas sp. 363 carries three phaC synthase genes and transcribes genes along three PHA pathways (I to III), whereas Paracoccus sp. 392 carries only one phaC gene and transcribes genes along one pathway (I). Thus, Halomonas sp. 363 has a versatile repertoire of phaC genes and pathways enabling production of both short- and medium-chain-length PHA products. IMPORTANCE Plastic pollution is one of the most topical threats to the health of the oceans and seas. One recognized way to alleviate the problem is to use degradable bioplastic materials in high-risk applications. PHA is a promising bioplastic material as it is nontoxic and fully produced and degraded by bacteria. Sea ice is an interesting environment for prospecting novel PHA-producing organisms, since traits advantageous to lower production costs, such as tolerance for high salinities and low temperatures, are common. We show that two sea-ice bacteria, Halomonas sp. 363 and Paracoccus sp. 392, are able to produce various types of PHA from inexpensive carbon sources. Halomonas sp. 363 is an especially interesting PHA-producing organism, since it has three different synthesis pathways to produce both short- and medium-chain-length PHAs.

KW - Halomonas

KW - MCL-PHA

KW - PHA

KW - Paracoccus

KW - SCL-PHA

KW - copolymer

KW - genomics

KW - marine bacteria

KW - poly-3-hydroxyalkanoic acid

KW - sea-ice bacteria

KW - transcriptomics

U2 - 10.1128/AEM.00929-21

DO - 10.1128/AEM.00929-21

M3 - Article

C2 - 34160268

VL - 87

JO - Applied and Environmental Microbiology

JF - Applied and Environmental Microbiology

SN - 0099-2240

IS - 17

M1 - e00929-21

ER -