Trinickia Estrada-de Los Santos et al. 2018
General information
Name
Trinickia
Valid publication
2018
Effective publication
2018
Nomenclature type
Trinickia symbiotica
Etymology
N.L. fem. n. <i>Trinickia</i> formed after M.J. Trinick, an Australian microbiologist who was the first to isolate β-rhizobia from <i>Mimosa</i>.
Description and emendation
Original Description
expand / minimize
Cells are Gram-negative, aerobic, non-spore-forming rods. Growth occurs between 10–40 ◦C for all members of this genus. Most members are catalase positive with the exception of T. dabaoshanensis. Positive for the hydrolysis of Tween 40 and 80. Positive for the utilization of N-acetyl-D-glucosamine, L-arabinose, D-fructose, L-fucose, α-D-glucose, D-mannitol, D-sorbitol, pyruvic acid methyl ester, succinic acid, bromosuccinic acid, L-alanine, L-alanylglycine, and L-asparagine. Compounds utilized by most members within the genus are D-arabitol, adonitol, D-galactose, myo-inositol, D-mannose, D-raffinose, L-rhamnose, succinic acid mono-methyl-ester, cis-aconitic acid, citric acid and formic acid.
Subdivision(s)
MID | Name | Rank | Taxon ID |
---|---|---|---|
M022503010219003 | Trinickia caryophylli | Species | |
M022503010219002 | Trinickia diaoshuihuensis | Species | |
M022503010219005 | Trinickia dinghuensis | Species | |
M022503010219006 | Trinickia fusca | Species | |
M022503010219004 | Trinickia soli | Species | |
M022503010219001 | Trinickia symbiotica | Species | 863227 |
References
1
Sheu, S.-Y., Chou, J.-H., Bontemps, C., Elliott, G.N., Gross, E., James, E.K., Sprent, J.I., Young, J.P.W., and Chen, W.-M. Burkholderia symbiotica sp. nov., isolated from root nodules of Mimosa spp. native to north-east Brazil. Int. J. Syst. Evol. Microbiol. (2012) 62:2272-2278.[DOI:10.1099/ijs.0.037408-0]
[PMID:22081715]
2
Sawana, A., Adeolu, M., and Gupta, R.S. Molecular signatures and phylogenomic analysis of the genus Burkholderia: proposal for division of this genus into the emended genus Burkholderia containing pathogenic organisms and a new genus Paraburkholderia gen. nov. harboring environmental species. Front. Genet. (2014) 5:429.[DOI:10.3389/fgene.2014.00429]
[PMID:25566316]
3
Validation List No. 164. Int. J. Syst. Evol. Microbiol. (2015) 65:2017-2025.[DOI:10.1099/ijs.0.000317]
4
Estrada-de Los Santos, P., Palmer, M., Chávez-Ramírez, B., Beukes, C., Steenkamp, E.T., Briscoe, L., Khan, N., Maluk, M., Lafos, M., Humm, E., Arrabit, M., Crook, M., Gross, E., Simon, M.F., Dos Reis Junior, F.B., Whitman, W.B., Shapiro, N., Poole, P.S., Hirsch, A.M., Venter, S.N., James, E.K. Whole Genome Analyses Suggests that Burkholderia sensu lato Contains Two Additional Novel Genera (Mycetohabitans gen. nov., and Trinickia gen. nov.): Implications for the Evolution of Diazotrophy and Nodulation in the Burkholderiaceae. Genes (Basel). (2018) 9(8): E389.[DOI:10.3390/genes9080389]
[PMID:30071618]
5
Validation List No. 184. Int. J. Syst. Evol. Microbiol. (2018) 68:3379-3393.[DOI:10.1099/ijsem.0.003071]