And the papers with descriptions of S. ureilytica (36), S. glossinae (46), andAnd the papers

And the papers with descriptions of S. ureilytica (36), S. glossinae (46), andAnd the papers

And the papers with descriptions of S. ureilytica (36), S. glossinae (46), and
And the papers with descriptions of S. ureilytica (36), S. glossinae (46), and S. nematodiphila (425). A short summary of important qualities of Serratia species (except for S. marcescens) follows. (i) S. liquefaciens. S. liquefaciens isolates will not be pigmented and produce DNase, gelatinase, and lipase. Most strains are lysine decarboxylase and ornithine decarboxylase constructive. S. liquefaciens strains are indole, urease, and arginine dihydrolase adverse. This organism is component of your S. liquefaciens complicated, together with S. grimesii, S. proteamaculans, and S. quinivorans. (ii) S. grimesii. S. grimesii is element of your S. liquefaciens complex and will not be pigmented. Isolates generate DNase, gelatinase, and lipase and are arginine dihydrolase, lysine decarboxylase, and ornithine decarboxylase positive. S. grimesii ferments lactose. (iii) S. proteamaculans. S. proteamaculans is within the S. liquefaciens complicated. It is not pigmented and produces DNase, gelatinase, and lipase. It can be lysine decarboxylase and ornithine decarboxylase positive. S. proteamaculans is indole, urease, and arginine dihydrolase adverse. (iv) S. quinivorans. Like S. liquefaciens, S. grimesii, and PubMed ID:https://www.ncbi.nlm.nih.gov/pubmed/12172973 S. proteamaculans, S. quinivorans is inside the S. liquefaciens complex. S. quinivorans produces DNase, gelatinase, and lipase. It is actually not pigmented and is indole, urease, and arginine dihydrolase negative. S. quinivorans is lysine decarboxylase and ornithine decarboxylase constructive. (v) S. ficaria. S. ficaria colonies are nonpigmented and create a potatolike odor. This organism produces DNase, gelatinase, and lipase. S. ficaria isolates are indole, urease, arginine dihydrolase, lysine decarboxylase, and ornithine decarboxylase negative.ND NDNDS. nematodiphilaNDS. glossinaeS. entomophilaND EPZ031686 NDNDND NDNDNDDNase Gelatinase Lipase (Tween 80 hydrolysis) Lipase (corn oil hydrolysis) Prodigiosin production Potato odor Indole Urease Arginine dihydrolase Lysine decarboxylase Ornithine decarboxylase LArabinose fermentation DDulcitol fermentation Lactose fermentation DSorbitol fermentation Sucrose fermentationabCharacteristics have been compiled from several references (36, 28, 46, 59, 425). ND, not determined; V, variable reaction. S. odorifera biotype is ornithine decarboxylase optimistic and ferments sucrose, although biotype 2 is ornithine decarboxylase damaging and will not ferment sucrose.S. plymuthicaVTABLE 5. Phenotypic traits of members in the genus SerratiaaS. odoriferaVbV V V V V V V V V Vb VS. rubidaeaS. marcescensS. liquefaciensS. grimesiiS. proteamaculansS. quinivoransS. ficariaS. fonticolaCharacteristicVV VVOL. 24,SERRATIA INFECTIONS(vi) S. fonticola. S. fonticola differs in the other species inside the genus for the reason that most strains ferment Ddulcitol and don’t create DNase and gelatinase. S. fonticola produces lipase, is not pigmented, and is indole and urease damaging. This organism is lysine decarboxylase and ornithine decarboxylase optimistic, commonly ferments lactose, and is arginine dihydrolase damaging. (vii) S. rubidaea. S. rubidaea might be pigmented, and some strains also have a potatolike odor. It produces DNase, gelatinase, and lipase and ferments lactose. S. rubidaea might be lysine decarboxylase good but is arginine dihydrolase and orthinine decarboxylase adverse. This organism is indole and urease negative and does not ferment Dsorbitol. (viii) S. odorifera. S. odorifera will not make pigment and includes a potatolike odor. It produces DNase and gelatinase, but it may be the only Se.

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