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Haloterrigena turkmenica

April 17, 2024

Haloterrigena turkmenica is an aerobic chemo organotrophic[1] archeon originally found in Turkish salt lakes.[2]

Haloterrigena turkmenica
Scientific classification
Domain:
Archaea
Kingdom:
Euryarchaeota
Phylum:
Euryarchaeota
Class:
Halobacteria
Order:
Halobacteriales
Family:
Halobacteriaceae
Genus:
Haloterrigena
Species:
H. turkmenica
Binomial name
Haloterrigena turkmenica

Discovery edit

Haloterrigena turkmenica is a halophilic archeon that was first isolated from sulfate saline soil located in Turkmenistan.[2] However, it wasn't until 2008 that H. turkmenica was successfully grown in the lab on Horikoshi medium.[3]

The Horikoshi medium is composed of yeast extract, glucose, potassium phosphate (KHPO4), peptone, Magnesium sulfate (MgSO4), water, and sodium carbonate (NaCO3).[3]

Haloterrigena turkmenica was initially placed in the family Halobacteriaceae as Halococcus turkmenicus by Zyaginsteva and Tarasov in 1987.[2] In 1999, Ventosa et al. published a proposal that would transfer the following species to Haloterrigena turkmenica, which is a new genera: Halococcus turkmenicus, Halobacterium trapanicum JCM 9743 and strain GSL-11.[1] The proposal was in response to Ventosa having found significant genetic differences between H. turkmenicus and other organisms in the Halococcus genera.[1] The proposal was accepted and the organism is now classified under this new novel genera.[1]

Etymology edit

The name Haloterrigena comes from the halos which mean salt and terrigena which means of or from Earth.[2] Turkmenica was proposed by Zvyaginseva and Tarasov in 1987.[2] This name comes from the fact that this species was first collected from the Turkish salt lakes.[1]

Characterization edit

Haloterrigena turkmenica is a gram-negative organism. Cells are typically found as individuals, but have been seen in the form of pairs and tetrads. Cell shape can be classified as being ovoid to coccoid in shape. The diameter of the cells ranges from 1.5 µm to 2.0 µm.[1]

On growth medium, colonies of H. turkmenica appear elevated, red in color and circular.[3] The red color is due to the presence of C50-carotenoids.[3] There have been conflicting reports on the optimum growth temperature. According to Selim et al., the optimum growth temperature for H. turkmenica is 40 °C,[3] while Saunders et al. reports that the optimum growth temperature is 51 °C.[4] However, both reports state that the temperature growth range is between 29°-57 °C.

H. turkmenica has been documented to best grow at NaCl concentrations around 3.4M.[3] However, it can tolerate salt concentrations from 2-4.5M NaCl.[3] At a pH of 9, H. turkmenica has been shown to grow best. It will tolerate a pH within the range of 8.5 to 11.[3]

Haloterrigena turkmenica is classified as an aerobic chemo-organotroph.[1] This organism uses oxygen its preferred terminal electron acceptor and uses organic compounds for its carbon and energy source. No motility was observed. H. turkmenica tested positive for both oxidase and catalase activity.[3] Also according to Selim et al., H. turkmenica is also able to hydrolyze tweens 80 (a branded version of polysorbate 80), casein, and cellulose. Acid is produced from glucose, mannose, fructose, sucrose, ribose and xylose fermentation.[3] This organism has been found to use the following substrates for growth: glycerol, propionate, citrate, and sodium acetate.[3] Nitrite reduction occurs without the production of gas.[3] H. turkmenica has a generation time of 1.5 hours, under optimal growth conditions, making it the fastest growing member of Halobacteriaceae.[5]

Phylogeny and Genome edit

Haloterrigena turkmenica is in the domain of Archaea.[1] Archaea are identified as being separate from bacteria and eukaryotes based on ribosomal RNA (rRNA) analysis and certain defining characteristics that separate the three domains of life as described by Woese in 1990.[6]

Rapid Annotation via Subsystems Technology (RAST) is a service that annotates archaeal and bacterial genomes and provides comparison of phylogenetic relationships across a phylogenetic tree.[7] Using RAST, Haloterrrigena turkmenica relatives were determined.[3] Each relative was given a similarity score: higher scores equate to a closer phylogenetic similarity. The scores are based on the number of similar protein-coding genes out of a pool of 2959 protein-coding sequences.[3] The following organisms are the 5 closest relatives to H. turkmenica (similarity scores in bold):[3]

  1. Haloterrigena borinquense DM 11551 (515)
  2. Haroarcula marimortui ATCC 43049 (506)
  3. Halomicrobium mukohataei DSM 12286 (501)
  4. Halorhabdus utahensis DS 12940 (497)
  5. Halquadratum walsbyi DSM 1679 (488)

In 2016, Selim et al. used a Roche DNA sequencer (GS De Novo Assembler V.2.9) to determine the GC (Guanine - Cytosine) content of H. turkmenica's genome.[3] The GC content of H. turkmenica was determined to be 64% for its draft genome with 49 RNA genes predicted using RAST.[3] The protein coding sequences were also digested using RAST. This revealed 193 subsystems including several enzymes encoding genes for carboxylase, cellulase and xylanase enzymes, xylose isomerase, and carboxylesterase.[3] Other genes coding for biosynthesis of peptides and secondary metabolites were also detected.[3]

Importance edit

Historically the phylogeny of the genera of Haloterrigena has been difficult to classify.[1] Further investigation could help to solidify the phylogeny of this archeon; solidification of the relationships among the members of Haloterrigena and Natrinema will help us to flesh out the Archaeal portion of the tree of life.[1] Investigation of Archaea's extremophile tendencies could lead to insight into novel technologies (such as DNA preservation) and may also provide insight into the biota of early Earth.[8] Methanogenesis is only performed by members of Archea and thus it is important to discover as much as we can about this domain.[8] Haloterrigena turkmenica is a good candidate for research because it has the fastest known generation time within Halobacteriaceae[5] and it can be grown on media.[3]

References edit

  1. ^ a b c d e f g h i j Ventosa, Antonio; Gutiérrez, M. Carmen; Kamekura, Masahiro; Dyall-Smith, Michael L. (1999-01-01). "Proposal to transfer Halococcus turkmenicus, Halobacterium trapanicum JCM 9743 and strain GSL-11 to Haloterrigena turkmenica gen. nov., comb. nov". International Journal of Systematic and Evolutionary Microbiology. 49 (1): 131–136. doi:10.1099/00207713-49-1-131. PMID 10028254.
  2. ^ a b c d e Zvyagintseva, IS; Tarasov, AL (1987). "Extreme halophilic bacteria saline soils". Mikrobiologiia. 56: 839–844.
  3. ^ a b c d e f g h i j k l m n o p q r s t Selim, Samy; Hagagy, Nashwa (2016-03-01). "Genome sequence of carboxylesterase, carboxylase and xylose isomerase producing alkaliphilic haloarchaeon Haloterrigena turkmenica WANU15". Genomics Data. 7: 70–72. doi:10.1016/j.gdata.2015.11.031. PMC 4778622. PMID 26981365.
  4. ^ Saunders, Elisabeth; Tindall, Brian J.; Fähnrich, Regine; Lapidus, Alla; Copeland, Alex; Rio, Tijana Glavina Del; Lucas, Susan; Chen, Feng; Tice, Hope (2010-02-28). "Complete genome sequence of Haloterrigena turkmenica type strain (4k T )". Standards in Genomic Sciences. 2 (1): 107–16. doi:10.4056/sigs.681272. ISSN 1944-3277. PMC 3035258. PMID 21304683.
  5. ^ a b Robinson, Jessie L.; Pyzyna, Brandy; Atrasz, Rachelle G.; Henderson, Christine A.; Morrill, Kira L.; Burd, Anna Mae; DeSoucy, Erik; Fogleman, Rex E.; Naylor, John B. (2005-02-01). "Growth Kinetics of Extremely Halophilic Archaea (Family Halobacteriaceae) as Revealed by Arrhenius Plots". Journal of Bacteriology. 187 (3): 923–929. doi:10.1128/JB.187.3.923-929.2005. ISSN 0021-9193. PMC 545725. PMID 15659670.
  6. ^ Woese, C R; Kandler, O; Wheelis, M L (1990-06-01). "Towards a natural system of organisms: proposal for the domains Archaea, Bacteria, and Eucarya". Proceedings of the National Academy of Sciences of the United States of America. 87 (12): 4576–4579. doi:10.1073/pnas.87.12.4576. ISSN 0027-8424. PMC 54159. PMID 2112744.
  7. ^ Aziz, Ramy K.; Bartels, Daniela; Best, Aaron A.; DeJongh, Matthew; Disz, Terrence; Edwards, Robert A.; Formsma, Kevin; Gerdes, Svetlana; Glass, Elizabeth M. (2008-01-01). "The RAST Server: Rapid Annotations using Subsystems Technology". BMC Genomics. 9: 75. doi:10.1186/1471-2164-9-75. ISSN 1471-2164. PMC 2265698. PMID 18261238.
  8. ^ a b Gribaldo, Simonetta; Brochier-Armanet, Celine (2006-06-29). "The origin and evolution of Archaea: a state of the art". Philosophical Transactions of the Royal Society of London B: Biological Sciences. 361 (1470): 1007–1022. doi:10.1098/rstb.2006.1841. ISSN 0962-8436. PMC 1578729. PMID 16754611.

External links edit

  • Type strain of Haloterrigena turkmenica at BacDive - the Bacterial Diversity Metadatabase

April 17, 2024
haloterrigena, turkmenica, aerobic, chemo, organotrophic, archeon, originally, found, turkish, salt, lakes, scientific, classificationdomain, archaeakingdom, euryarchaeotaphylum, euryarchaeotaclass, halobacteriaorder, halobacterialesfamily, halobacteriaceaegen. Haloterrigena turkmenica is an aerobic chemo organotrophic 1 archeon originally found in Turkish salt lakes 2 Haloterrigena turkmenicaScientific classificationDomain ArchaeaKingdom EuryarchaeotaPhylum EuryarchaeotaClass HalobacteriaOrder HalobacterialesFamily HalobacteriaceaeGenus HaloterrigenaSpecies H turkmenicaBinomial nameHaloterrigena turkmenica Contents 1 Discovery 2 Etymology 3 Characterization 4 Phylogeny and Genome 5 Importance 6 References 7 External linksDiscovery editHaloterrigena turkmenica is a halophilic archeon that was first isolated from sulfate saline soil located in Turkmenistan 2 However it wasn t until 2008 that H turkmenica was successfully grown in the lab on Horikoshi medium 3 The Horikoshi medium is composed of yeast extract glucose potassium phosphate KHPO4 peptone Magnesium sulfate MgSO4 water and sodium carbonate NaCO3 3 Haloterrigena turkmenica was initially placed in the family Halobacteriaceae as Halococcus turkmenicus by Zyaginsteva and Tarasov in 1987 2 In 1999 Ventosa et al published a proposal that would transfer the following species to Haloterrigena turkmenica which is a new genera Halococcus turkmenicus Halobacterium trapanicum JCM 9743 and strain GSL 11 1 The proposal was in response to Ventosa having found significant genetic differences between H turkmenicus and other organisms in the Halococcus genera 1 The proposal was accepted and the organism is now classified under this new novel genera 1 Etymology editThe name Haloterrigena comes from the halos which mean salt and terrigena which means of or from Earth 2 Turkmenica was proposed by Zvyaginseva and Tarasov in 1987 2 This name comes from the fact that this species was first collected from the Turkish salt lakes 1 Characterization editHaloterrigena turkmenica is a gram negative organism Cells are typically found as individuals but have been seen in the form of pairs and tetrads Cell shape can be classified as being ovoid to coccoid in shape The diameter of the cells ranges from 1 5 µm to 2 0 µm 1 On growth medium colonies of H turkmenica appear elevated red in color and circular 3 The red color is due to the presence of C50 carotenoids 3 There have been conflicting reports on the optimum growth temperature According to Selim et al the optimum growth temperature for H turkmenica is 40 C 3 while Saunders et al reports that the optimum growth temperature is 51 C 4 However both reports state that the temperature growth range is between 29 57 C H turkmenica has been documented to best grow at NaCl concentrations around 3 4M 3 However it can tolerate salt concentrations from 2 4 5M NaCl 3 At a pH of 9 H turkmenica has been shown to grow best It will tolerate a pH within the range of 8 5 to 11 3 Haloterrigena turkmenica is classified as an aerobic chemo organotroph 1 This organism uses oxygen its preferred terminal electron acceptor and uses organic compounds for its carbon and energy source No motility was observed H turkmenica tested positive for both oxidase and catalase activity 3 Also according to Selim et al H turkmenica is also able to hydrolyze tweens 80 a branded version of polysorbate 80 casein and cellulose Acid is produced from glucose mannose fructose sucrose ribose and xylose fermentation 3 This organism has been found to use the following substrates for growth glycerol propionate citrate and sodium acetate 3 Nitrite reduction occurs without the production of gas 3 H turkmenica has a generation time of 1 5 hours under optimal growth conditions making it the fastest growing member of Halobacteriaceae 5 Phylogeny and Genome editHaloterrigena turkmenica is in the domain of Archaea 1 Archaea are identified as being separate from bacteria and eukaryotes based on ribosomal RNA rRNA analysis and certain defining characteristics that separate the three domains of life as described by Woese in 1990 6 Rapid Annotation via Subsystems Technology RAST is a service that annotates archaeal and bacterial genomes and provides comparison of phylogenetic relationships across a phylogenetic tree 7 Using RAST Haloterrrigena turkmenica relatives were determined 3 Each relative was given a similarity score higher scores equate to a closer phylogenetic similarity The scores are based on the number of similar protein coding genes out of a pool of 2959 protein coding sequences 3 The following organisms are the 5 closest relatives to H turkmenica similarity scores in bold 3 Haloterrigena borinquense DM 11551 515 Haroarcula marimortui ATCC 43049 506 Halomicrobium mukohataei DSM 12286 501 Halorhabdus utahensis DS 12940 497 Halquadratum walsbyi DSM 1679 488 In 2016 Selim et al used a Roche DNA sequencer GS De Novo Assembler V 2 9 to determine the GC Guanine Cytosine content of H turkmenica s genome 3 The GC content of H turkmenica was determined to be 64 for its draft genome with 49 RNA genes predicted using RAST 3 The protein coding sequences were also digested using RAST This revealed 193 subsystems including several enzymes encoding genes for carboxylase cellulase and xylanase enzymes xylose isomerase and carboxylesterase 3 Other genes coding for biosynthesis of peptides and secondary metabolites were also detected 3 Importance editHistorically the phylogeny of the genera of Haloterrigena has been difficult to classify 1 Further investigation could help to solidify the phylogeny of this archeon solidification of the relationships among the members of Haloterrigena and Natrinema will help us to flesh out the Archaeal portion of the tree of life 1 Investigation of Archaea s extremophile tendencies could lead to insight into novel technologies such as DNA preservation and may also provide insight into the biota of early Earth 8 Methanogenesis is only performed by members of Archea and thus it is important to discover as much as we can about this domain 8 Haloterrigena turkmenica is a good candidate for research because it has the fastest known generation time within Halobacteriaceae 5 and it can be grown on media 3 References edit a b c d e f g h i j Ventosa Antonio Gutierrez M Carmen Kamekura Masahiro Dyall Smith Michael L 1999 01 01 Proposal to transfer Halococcus turkmenicus Halobacterium trapanicum JCM 9743 and strain GSL 11 to Haloterrigena turkmenica gen nov comb nov International Journal of Systematic and Evolutionary Microbiology 49 1 131 136 doi 10 1099 00207713 49 1 131 PMID 10028254 a b c d e Zvyagintseva IS Tarasov AL 1987 Extreme halophilic bacteria saline soils Mikrobiologiia 56 839 844 a b c d e f g h i j k l m n o p q r s t Selim Samy Hagagy Nashwa 2016 03 01 Genome sequence of carboxylesterase carboxylase and xylose isomerase producing alkaliphilic haloarchaeon Haloterrigena turkmenica WANU15 Genomics Data 7 70 72 doi 10 1016 j gdata 2015 11 031 PMC 4778622 PMID 26981365 Saunders Elisabeth Tindall Brian J Fahnrich Regine Lapidus Alla Copeland Alex Rio Tijana Glavina Del Lucas Susan Chen Feng Tice Hope 2010 02 28 Complete genome sequence of Haloterrigena turkmenica type strain 4k T Standards in Genomic Sciences 2 1 107 16 doi 10 4056 sigs 681272 ISSN 1944 3277 PMC 3035258 PMID 21304683 a b Robinson Jessie L Pyzyna Brandy Atrasz Rachelle G Henderson Christine A Morrill Kira L Burd Anna Mae DeSoucy Erik Fogleman Rex E Naylor John B 2005 02 01 Growth Kinetics of Extremely Halophilic Archaea Family Halobacteriaceae as Revealed by Arrhenius Plots Journal of Bacteriology 187 3 923 929 doi 10 1128 JB 187 3 923 929 2005 ISSN 0021 9193 PMC 545725 PMID 15659670 Woese C R Kandler O Wheelis M L 1990 06 01 Towards a natural system of organisms proposal for the domains Archaea Bacteria and Eucarya Proceedings of the National Academy of Sciences of the United States of America 87 12 4576 4579 doi 10 1073 pnas 87 12 4576 ISSN 0027 8424 PMC 54159 PMID 2112744 Aziz Ramy K Bartels Daniela Best Aaron A DeJongh Matthew Disz Terrence Edwards Robert A Formsma Kevin Gerdes Svetlana Glass Elizabeth M 2008 01 01 The RAST Server Rapid Annotations using Subsystems Technology BMC Genomics 9 75 doi 10 1186 1471 2164 9 75 ISSN 1471 2164 PMC 2265698 PMID 18261238 a b Gribaldo Simonetta Brochier Armanet Celine 2006 06 29 The origin and evolution of Archaea a state of the art Philosophical Transactions of the Royal Society of London B Biological Sciences 361 1470 1007 1022 doi 10 1098 rstb 2006 1841 ISSN 0962 8436 PMC 1578729 PMID 16754611 External links editType strain of Haloterrigena turkmenica at BacDive the Bacterial Diversity Metadatabase Retrieved from https en wikipedia org w index php title Haloterrigena turkmenica amp oldid 1188121833, wikipedia, wiki, book, books, library,

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