Halomonas

Description

Members of Halomonas are Gram-negative, rod-shaped bacteria, generally 0.6-0.8 μm by 1.6-1.9 μm. They move by using flagella. They grow in the presence of oxygen, although some have been reported to be able to grow without oxygen. When grown on an agar plate, they form white/yellow colonies that turn light brown over time.

Ecology

Halomonas species have been found in a broad variety of saline environments, including estuaries, the ocean, and saline lakes.

Species

Many species of Halomonas have been described: H. alimentaria

H. alkaliantarctica

H. alkaliphila

H. almeriensis

H. andesensis

H. anticariensis

H. aquamarina

H. arcis

H. axialensis

H. beimenensis

H. boliviensis

H. campaniensis

H. campisalis

H. caseinilytica

H. cerina

H. cibimaris

H. cupida

H. daqiaonensis

H. daqingensis

H. denitrificans

H. desiderata

H. elongata

H. eurihalina

H. flava

H. fontilapidosi

H. garicola

H. gomseomensis

H. gudaonensis

H. halmophila

H. halocynthiae

H. halodenitrificans

H. halophila

H. hamiltonii

H. heilongjiangensis

H. huangheensis

H. hydrothermalis

H. ilicicola

H. janggokensis

H. jeotgali

H. johnsoniae

H. kenyensis

H. koreensis

H. korlensis

H. kribbensis

H. lutea

H. lutescence

H. magadiensis

H. maura

H. meridiana

H. mongoliensis

H. muralis

H. nanhaiensis

H. neptunia

H. nitroreducens

H. olivaria

H. organivorans

H. pacifica

H. pantelleriensis

H. qiaohouensis

H. qijiaojingensis

H. ramblicola

H. rifensis

H. sabkhae

H. saccharevitans

H. salicampi

H. salifodinae

H. salina

H. sediminicola

H. shengliensis

H. sinaiensis

H. smyrnensis

H. songnenensis

H. stenophila

H. stevensii

H. subglaciescola

H. subterranea

H. sulfidaeris

H. taeanensis

H. titanicae

H. urumqiensis

H. variabilis

H. ventosae

H. venusta

H. vilamensis

H. xianhensis

H. xinjiangensis

H. zhangjiangensis

H. zincidurans

Pathogenic potential

Certain species of *Halomonas *may display pathogenic potential in humans. In one study, three species were isolated from two patients suffering bacteremia in a dialysis center. The study hypothesized that the bicarbonate used in the dialysis fluid may have been contaminated by the bacteria.

Health

Halomonas sp. KM-1 is used for industrial production of β-hydroxybutyric acid (BHB).

Etymology

The name Halomonas derives from: Greek noun hals, halos (ἅλς, ἁλός), salt; and monas (μονάς), nominally meaning "a unit", but in effect meaning a bacterium; thus, salt (-tolerant) monad.

Members of the genus Halomonas can be referred to as halomonads (see Trivialisation of names).

References

References

1. (1980). "Halomonas elongata, a new genus and species of extremely salt-tolerant bacteria". Int. J. Syst. Bacteriol..
2. Vreeland RH. (2015). "Bergey's Manual of Systematics of Archaea and Bacteria".
3. Euzeby JP. "''Halomonas''".
4. (July 2009). "Halomonas, a newly recognized human pathogen causing infections and contamination in a dialysis center: three new species". Medicine (Baltimore).
5. (2024-08-26). "Determination of the safety of Halomonas sp. KM-1-derived d-β-hydroxybutyric acid and its fermentation-derived impurities in mice and Japanese adults". Bioscience, Biotechnology, and Biochemistry.
6. {{lpsn. h/halomonas.html. Halomonas