Three Morganella morganii strains resistant to carbapenems were recovered from the surgical intensive care unit (SICU) in our hospital. Carbapenemases and extended-spectrum β-lactamases (ESBLs) were respectively detected by the modified Hodge test and the modified Clinical and Laboratory Standards Institute (CLSI) ESBL confirmatory test in all isolates. Amplification of whole-cell and plasmid DNAs extracted from isolates with primers specific for the bla (KPC) produced an amplicon confirmed to be bla (KPC-2) by sequence analysis. Pulsed-field gel electrophoresis (PFGE) typing revealed that three isolates belonged to two closely related types. Plasmids electrophoresis and restriction analysis revealed that the bla (KPC-2) was located on different plasmids. The transfer of carbapenem resistance from the three original isolates to Escherichia coli EC600 was successful by conjugation. An examination of the outer membrane proteins showed a lack of a 38-kDa outer membrane protein (OMP) compared with M. morganii susceptible to carbapenems. The production of KPC-2 and ESBLs, combined with OMP deficiency, resulted in high-level carbapenem resistance in the M. morganii strains. The genetic environment around bla (KPC-2) analysis revealed that this β-lactamase was located on the same mobile genetic elements which could transfer between different plasmids.
In this study, a short stature male with infertility is reported. Semen analysis and serum concentrations of FSH, LH, T and PRL were estimated. Chromosome analysis was performed on lymphocytes obtained from both the male and his parents. Cytogenomic studies were performed by fluorescent in situ hybridisation and the CytoScan(™) HD array analysis to detect Y chromosomal rearrangements and copy number mutations. Semen analysis showed severe oligozoospermia. Numerous spermatogenic cells were observed in the semen, and approximately 60% of the cells examined in semen were primary spermatocytes, showing spermatogenic arrest at the primary spermatocyte level. Cytogenomic studies of blood revealed his karyotype which was 46,X,i(Y) (p11.32) (Yqter→Yp11.32::Yp11.32→Yqter).ish (DYZ3++, SRY++, SHOX-). array (PLCXD1→SHOX) ×1,(SRY →GOLGA2P3Y)×2, (DHRSX→ ASMT, SPRY3 →IL9R)×3. The rearrangement Y chromosome is de novo. This is the first case reported with a nonmosaic 46,X, i (Y) (p11.32), which will be useful to estimate the infertility phenotype-molecular karyotype correlation. Haploinsufficiency of short stature homeobox-containing gene is primarily responsible for the short stature. Aberrations in pseudoautosomal region 1 on the rearranged Y chromosome may result in the deficiency of X-Y pairing or recombination, ultimately lead to the spermatogenic failure.
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