SHV-30

Accession ARO:3001088
CARD Short NameSHV-30
DefinitionSHV-30 is an extended-spectrum beta-lactamase found in Enterobacter cloacae.
AMR Gene FamilySHV beta-lactamase
Drug Classpenam, cephalosporin
Resistance Mechanismantibiotic inactivation
Resistomes with Perfect MatchesCitrobacter freundiip, Enterobacter hormaecheiwgs, Klebsiella michiganensiswgs, Klebsiella oxytocap, Klebsiella pneumoniaep+wgs, Klebsiella quasipneumoniaewgs, Serratia marcescensp
Resistomes with Sequence VariantsCitrobacter freundiip, Enterobacter hormaecheiwgs, Klebsiella michiganensiswgs, Klebsiella oxytocap, Klebsiella pneumoniaep+wgs, Klebsiella quasipneumoniaewgs, Serratia marcescensp
Classification15 ontology terms | Show
Parent Term(s)1 ontology terms | Show
+ SHV beta-lactamase [AMR Gene Family]
Publications

Szabo D, et al. 2005. Antimicrob Agents Chemother 49(11): 4716-4720. Molecular analysis of the simultaneous production of two SHV-type extended-spectrum beta-lactamases in a clinical isolate of Enterobacter cloacae by using single-nucleotide polymorphism genotyping. (PMID 16251316)

Resistomes

Prevalence of SHV-30 among the sequenced genomes, plasmids, and whole-genome shotgun assemblies available at NCBI or IslandViewer for 413 important pathogens (see methodological details and complete list of analyzed pathogens). Values reflect percentage of genomes, plasmids, genome islands, or whole-genome shotgun assemblies that have at least one hit to the AMR detection model. Default view includes percentages calculated based on Perfect plus Strict RGI hits. Select the checkbox to view percentages based on only Perfect matches to AMR reference sequences curated in CARD (note: this excludes resistance via mutation as references in protein variant models are often wild-type, sensitive sequences).

Prevalence: protein homolog model (view sequences)

SpeciesNCBI ChromosomeNCBI PlasmidNCBI WGSNCBI GI
Citrobacter freundii0%0.62%0%0%
Enterobacter hormaechei0%0%0.04%0%
Klebsiella michiganensis0%0%0.8%0%
Klebsiella oxytoca0%0.68%0%0%
Klebsiella pneumoniae0%0.02%0.01%0%
Klebsiella quasipneumoniae0%0%0.13%0%
Serratia marcescens0%1.94%0%0%
Show Perfect Only


Detection Models

Model Type: protein homolog model

Model Definition: Protein Homolog Models (PHM) detect protein sequences based on their similarity to a curated reference sequence, using curated BLASTP bitscore cut-offs. Protein Homolog Models apply to all genes that confer resistance through their presence in an organism, such as the presence of a beta-lactamase gene on a plasmid. PHMs include a reference sequence and a bitscore cut-off for detection using BLASTP. A Perfect RGI match is 100% identical to the reference protein sequence along its entire length, a Strict RGI match is not identical but the bit-score of the matched sequence is greater than the curated BLASTP bit-score cutoff, Loose RGI matches have a bit-score less than the curated BLASTP bit-score cut-off.

Bit-score Cut-off (blastP): 550


>gb|AAT75225.1|+|SHV-30 [Enterobacter cloacae]
MRYFRLCIISLLATLPLAVHASPQPLEQIKLSESQLSGSVGMIEMDLASGRTLTAWRADERFPMMSTFKVVLCGAVLARVDAGDEQLERK
IHYRQQDLVDYSPVSEKHLADGMTVGELCAAAITMSDNSAANLLLATVGGPAGLTAFLRQIGDNVTRLDRWETELNEALPGDARDTTTPA
SMAATLRKLLTSQRLSARSQRQLLQWMVDDRVAGPLIRSVLPAGWFIADKTGASERGARGIVALLGPNNKAERIVVIYLRDTPASMAERN
QQIAGIGAALIEHWQR


>gb|AY661885.1|+|49-909|SHV-30 [Enterobacter cloacae]
ATGCGTTATTTTCGCCTGTGTATTATCTCCCTGTTAGCCACCCTGCCGCTGGCGGTACACGCCAGCCCGCAGCCGCTTGAGCAAATTAAA
CTAAGCGAAAGCCAGCTGTCGGGCAGCGTAGGCATGATAGAAATGGATCTGGCCAGCGGCCGCACGCTGACCGCCTGGCGCGCCGATGAA
CGCTTTCCCATGATGAGCACCTTTAAAGTAGTGCTCTGCGGCGCAGTGCTGGCGCGGGTGGATGCCGGTGACGAACAGCTGGAGCGAAAG
ATCCACTATCGCCAGCAGGATCTGGTGGACTACTCGCCGGTCAGCGAAAAACACCTTGCCGACGGCATGACGGTCGGCGAACTCTGTGCC
GCCGCCATTACCATGAGCGATAACAGCGCCGCCAATCTGCTGCTGGCCACCGTCGGCGGCCCCGCAGGATTGACTGCCTTTTTGCGCCAG
ATCGGCGACAACGTCACCCGCCTTGACCGCTGGGAAACGGAACTGAATGAGGCGCTTCCCGGCGACGCCCGCGACACCACTACCCCGGCC
AGCATGGCCGCGACCCTGCGCAAGCTGCTGACCAGCCAGCGTCTGAGCGCCCGTTCGCAACGGCAGCTGCTGCAGTGGATGGTGGACGAT
CGGGTCGCCGGACCGTTGATCCGCTCCGTGCTGCCGGCGGGCTGGTTTATCGCCGATAAGACCGGAGCTAGCGAACGGGGTGCGCGCGGG
ATTGTCGCCCTGCTTGGCCCGAATAACAAAGCAGAGCGGATTGTGGTGATTTATCTGCGGGATACGCCGGCGAGCATGGCCGAGCGAAAT
CAGCAAATCGCCGGGATCGGCGCGGCGCTGATCGAGCACTGGCAACGCTAA