All authors read and approved the final manuscript “
“Backgr

All authors read and approved the final manuscript.”
“Background Citrate, a ubiquitous PF-6463922 cell line natural compound that exists in all living cells, can be used by several enterobacterial species as a carbon and energy source. Klebsiella pneumoniae has been known to be able to grow anaerobically with citrate as the sole carbon source. During the past decade, the physiology, biochemistry, and regulation of this pathway have been extensively studied in K. pneumoniae [1–4]. The fermentation process involves

uptake of citrate by a Na+ -dependent citrate carrier, cleavage into oxaloacetate and acetate by citrate lyase, and decarboxylation of oxaloacetate to pyruvate by oxaloacetate decarboxylase. Finally, pyruvate can be converted to acetate, formate and carbon dioxide by means of anaerobic pyruvate catabolism. Genes responsible for citrate fermentation of K. pneumoniae can be identified in a 13-kb gene cluster on the chromosome [[2, 5], and this study]. These BIBW2992 cell line genes are contained within two divergently transcribed operons, citC2D2E2F2G2 and citS-oadGAB-citAB [6]. The citC2D2E2F2G2 operon encodes the citrate lyase ligase, the γ-, β-, and α-subunits of citrate lyase, and triphosphoribosyl-dephospho-coenzyme A synthase. The citS-oadGAB(dcoCAB)-citAB operon encodes the citrate carrier

CitS, the γ-, α-, and β-subunits of oxaloacetate decarboxylase, and the citrate-sensing CitA-CitB two component system [5]. Transcription at the promoters in front of the two operons is activated by phospho-CitB and Crp-cAMP [2]. Additionally, citX, which is required for synthesis of the citrate lyase prosthetic group, has been identified in a second genomic location Aprepitant along with citW, a putative citrate transporter gene, and citYZ that encodes a two component system homologous to CitA-CitB [7].

The citWX genes and the divergent citYZ are adjacent but placed in opposite directions. Coliform Selleckchem Idasanutlin organisms, especially E. coli and K. pneumoniae, are the most common causes of urinary tract infection. Uropathogenic pathogens have been studied extensively for virulence factors such as the fimbriae and adhesins [8, 9]. These virulence factors facilitate the anchorage of the pathogens to the extracellular matrix of the bladder and urinary tract, and thus prevent them from being washed out by the urine. Type I pili, which is produced by all members of the Enterobacteriaceae family, has long been implicated as an important virulence factor in mediating K. pneumoniae urinary infection [10, 11]. Alternatively, the ability to grow in urine may be important for the persistence of pathogens in the urinary tract. Except for trace of amino acids, citrate is the only carbon source available in normal human urine. In K. pneumoniae, little has been reported about the genomic basis for nutrient growth. We recently completed the whole-genome sequence of NTUH-K2044 (GenBank accession no. AP006725) [12], a K.

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