Russell H. Vreeland scite author profile

Bacteria have been found associated with a variety of ancient samples, however few studies are generally accepted due to questions about sample quality and contamination. When Cano and Borucki isolated a strain of Bacillus sphaericus from an extinct bee trapped in 25-30 million-year-old amber, careful sample selection and stringent sterilization techniques were the keys to acceptance. Here we report the isolation and growth of a previously unrecognized spore-forming bacterium (Bacillus species, designated 2-9-3) from a brine inclusion within a 250 million-year-old salt crystal from the Permian Salado Formation. Complete gene sequences of the 16S ribosomal DNA show that the organism is part of the lineage of Bacillus marismortui and Virgibacillus pantothenticus. Delicate crystal structures and sedimentary features indicate the salt has not recrystallized since formation. Samples were rejected if brine inclusions showed physical signs of possible contamination. Surfaces of salt crystal samples were sterilized with strong alkali and acid before extracting brines from inclusions. Sterilization procedures reduce the probability of contamination to less than 1 in 10(9).

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Halomonas elongata, a New Genus and Species of Extremely Salt-Tolerant Bacteria

Vreeland

Litchfield

Martin

et al. 1980

International Journal of Systematic Bacteriology

389

199

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Halosimplex carlsbadense gen. nov., sp. nov., a unique halophilic archaeon, with three 16S rRNA genes, that grows only in defined medium with glycerol and acetate or pyruvate

et al. 2002

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A halophilic archaeon has been isolated from unsterilized salt crystals taken from the 250-million-year-old Salado formation in southeastern New Mexico. This microorganism grows only on defined media supplemented with either a combination of acetate and glycerol, glycerol and pyruvate, or pyruvate alone. The archaeon is unable to grow on complex media or to use carbohydrates, amino acids, fats, proteins, or nucleic acids for growth. Unlike other halophilic microbes, this organism possesses four glycolipids, two of which may be novel. The microbe is unique in that it has three dissimilar 16S rRNA genes. Two of the three genes show only 97% similarity to one another, while the third gene possesses only 92%-93% similarity to the other two. Inferred phylogenies indicate that the organism belongs to a deep branch in the line of Haloarcula and Halorhabdus. All three lines of taxonomic evidence: phenotype, lipid patterns, and phylogeny, support creation of a new genus and species within the halophilic Archaea. The name suggested for this new genus and species is Halosimplex carlsbadense. The type strain is 2-9-1(T) (= ATCC BAA-75 and JCM 11222) as written in the formal description.

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Mechanisms of Halotolerance in Microorganisms

Vreeland

1987

CRC Critical Reviews in Microbiology

113

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Microorganisms have the ability to adapt to a wide range of NaCl concentrations. In general the NaCl tolerance shown by microbes far exceeds the salt tolerance of any other organism, procryote or eukaryote. There are at least three mechanisms available for adaptation to different salt concentrations. The first would be a passive one in which the cytoplasmic ion content would always equal that in the medium. A second mechanism which is used by many organisms involves concentrating compatible solutes to create an osmotic balance between the cytoplasm and the external environment. The third mechanism involves changing the cell physiology to control the movement of water allowing the cell to exist with an ionically dilute cytoplasm. This article will review the major developments and discuss the implications of increasing knowledge about salt tolerance in microorganisms.

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Halogeometricum borinquense gen. nov., sp. nov., a novel halophilic archaeon from Puerto Rico

Montalvo‐Rodríguez

Vreeland

Oren

et al. 1998

International Journal of Systematic Bacteriology

113

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