Toll-like receptor 4 (TLR4) is essential for initiating the innate response to lipopolysaccharide (LPS) from Gram-negative bacteria by acting as a signal transducting receptor. In order to help in investigating TL...Toll-like receptor 4 (TLR4) is essential for initiating the innate response to lipopolysaccharide (LPS) from Gram-negative bacteria by acting as a signal transducting receptor. In order to help in investigating TLR4 as a candidate disease-resistance gene in cows, we isolated the cDNA (GenBank accession no. DQ839566) by RT-PCR and rapid amplification of cDNA ends (RACE) experiments and analyzed the sequence characters by bioinformatics. The results showed that cattle TLR4 gene about 3 739 bp contains an open reading frame of 2 526 bp encoded 841 amino acids (aa), 470 bp 5′ untranslated region (UTR), and 743 bp 3′ UTR. Tissue expression profile by RT-PCR indicated that TLR4 gene expresses in mammary glands, liver, muscle, duodenum, fats, uterus, kidneys, hearts, lungs, pancreas, and ovary. TLR4 protein domain predicted by bioinformatics consists of signal peptide, transmembrane helices domain, 3 sorts of leucine-rich repeat domains (LRR, LRR-TYP, and LRRCT), and a toll-interleukinl-resistance domain (TIR). Leucine-rich repeat domains were related with recognizing a broad of pathogen-associated molecular patterns (PAMP) from pathogen, and TIR domain for downstream signaling transduction was most conservative (98% identify) than other domains after alignment of protein from ovine, porcine, human, and mouse. In addition, a 470 bp 5′-flanking region sequence was amplified by PCR, and 15 putative DNA binding sites were predicted, but this sequence lacks TATA box, CCAAT character, and GC-rich regions.展开更多
The multiple antibiotic resistance regulatory protein(MarR) binds to two promoter sites on the marO operator in Escherichia coli.Our study showed that more than one MarR dimer proteins bound to either of its two promo...The multiple antibiotic resistance regulatory protein(MarR) binds to two promoter sites on the marO operator in Escherichia coli.Our study showed that more than one MarR dimer proteins bound to either of its two promoter sites(Site I and Site II),suggesting that MarR might form higher complexes than homodimers when bound to DNA inside E.coli cells.To further verify this hypothesis,we site-specifically incorporated a photocrosslinking probe at the interface between two MarR dimer proteins.Photolysis in living E.coli cells revealed a covalent linkage between the two interdimer subunits of MarR,suggesting that MarR forms dimer of dimers in vivo.展开更多
基金supported by the Key Technology R&D Program of China during the 11th Five-Year Plan period (2006BAD01A10, 2006BAD14B07, and2006BAD04A16)the National High Technology Research and Development Program of China(2006AA10Z197)
文摘Toll-like receptor 4 (TLR4) is essential for initiating the innate response to lipopolysaccharide (LPS) from Gram-negative bacteria by acting as a signal transducting receptor. In order to help in investigating TLR4 as a candidate disease-resistance gene in cows, we isolated the cDNA (GenBank accession no. DQ839566) by RT-PCR and rapid amplification of cDNA ends (RACE) experiments and analyzed the sequence characters by bioinformatics. The results showed that cattle TLR4 gene about 3 739 bp contains an open reading frame of 2 526 bp encoded 841 amino acids (aa), 470 bp 5′ untranslated region (UTR), and 743 bp 3′ UTR. Tissue expression profile by RT-PCR indicated that TLR4 gene expresses in mammary glands, liver, muscle, duodenum, fats, uterus, kidneys, hearts, lungs, pancreas, and ovary. TLR4 protein domain predicted by bioinformatics consists of signal peptide, transmembrane helices domain, 3 sorts of leucine-rich repeat domains (LRR, LRR-TYP, and LRRCT), and a toll-interleukinl-resistance domain (TIR). Leucine-rich repeat domains were related with recognizing a broad of pathogen-associated molecular patterns (PAMP) from pathogen, and TIR domain for downstream signaling transduction was most conservative (98% identify) than other domains after alignment of protein from ovine, porcine, human, and mouse. In addition, a 470 bp 5′-flanking region sequence was amplified by PCR, and 15 putative DNA binding sites were predicted, but this sequence lacks TATA box, CCAAT character, and GC-rich regions.
基金supported by research grants from the National Natural Science Foundation of China(91013005, 21001010 and 20932006 to P.R.C.)National Key Basic Research Foundation of China(2010CB912300 to P.R.C.)
文摘The multiple antibiotic resistance regulatory protein(MarR) binds to two promoter sites on the marO operator in Escherichia coli.Our study showed that more than one MarR dimer proteins bound to either of its two promoter sites(Site I and Site II),suggesting that MarR might form higher complexes than homodimers when bound to DNA inside E.coli cells.To further verify this hypothesis,we site-specifically incorporated a photocrosslinking probe at the interface between two MarR dimer proteins.Photolysis in living E.coli cells revealed a covalent linkage between the two interdimer subunits of MarR,suggesting that MarR forms dimer of dimers in vivo.
