Home  About us  Contact
 

Highly Conserved Residue (highly + conserved_residue)

Distribution by Scientific Domains
Life Sciences40%
Chemistry40%

Selected Abstracts

Disease-associated casein kinase I , mutation may promote adenomatous polyps formation via a Wnt/,-catenin independent mechanism

INTERNATIONAL JOURNAL OF CANCER, Issue 5 2007
I-Chun Tsai
Abstract The Wnt signaling pathway is critical for embryonic development and is dysregulated in multiple cancers. Two closely related isoforms of casein kinase I (CKI, and ,) are positive regulators of this pathway. We speculated that mutations in the autoinhibitory domain of CKI,/, might upregulate CKI,/, activity and hence Wnt signaling and increase the risk of adenomatous polyps and colon cancer. Exons encoding the CKI, and CKI, regulatory domains were sequenced from DNA obtained from individuals with adenomatous polyps and a family history of colon cancer unaffected by familial adenomatous polyposis or hereditary nonpolyposis colorectal cancer (HNPCC). A CKI, missense mutation, changing a highly conserved residue, Arg324, to His (R324H), was found in an individual with large and multiple polyps diagnosed at a relatively young age. Two findings indicate that this mutation is biologically active. First, ectopic ventral expression of CKI,(R324H) in Xenopus embryos results in secondary axis formation with an additional distinctive phenotype (altered morphological movements) similar to that seen with unregulated CKI,. Second, CKI,(R324H) is more potent than wildtype CKI, in transformation of RKO colon cancer cells. Although the R324H mutation does not significantly change CKI, kinase activity in an in vitro kinase assay or Wnt/,-catenin signal transduction as assessed by a ,-catenin reporter assay, it alters morphogenetic movements via a ,-catenin-independent mechanism in early Xenopus development. This novel human CKI, mutation may alter the physiological role and enhance the transforming ability of CKI, through a Wnt/,-catenin independent mechanism and thereby influence colonic adenoma development. © 2006 Wiley-Liss, Inc. [source]

Succinimide formation at Asn 55 in the complementarity determining region of a recombinant monoclonal antibody IgG1 heavy chain

JOURNAL OF PHARMACEUTICAL SCIENCES, Issue 10 2009
Boxu Yan
Abstract We investigated the formation and stability of succinimide, an intermediate of deamidation events, in recombinant monoclonal antibodies (mAbs). During the course of an analytical development study of an IgG1 mAbs, we observed that a specific antibody population could be separated from the main product by cation-exchange (CEX) chromatography. The cell-based bioassay measured a ,70% drop in potency for this fraction. Liquid chromatography time-of-flight mass spectrometry (LC,TOF/MS) and tandem mass spectrometry (LC,MS/MS) analyses showed that the modified CEX fraction resulted from the formation of a succinimide intermediate at Asn 55 in the complementarity determining region (CDR) of the heavy chain. Biacore assay revealed a ,50% decrease in ligand binding activity for the succinimide-containing Fab with respect to the native Fab. It was found that the succinimide form existed as a stable intermediate with a half-life of ,3 h at 37°C and pH 7.6. Stress studies indicated that mildly acidic pH conditions (pH 5) favored succinimide accumulation, causing a gradual loss in potency. Hydrolysis of the succinimide resulted in a further drop in potency. The implications of the succinimide formation at Asn 55, a highly conserved residue among IgG1 (mAbs), are discussed. © 2009 Wiley-Liss, Inc. and the American Pharmacists Association J Pharm Sci 98:3509,3521, 2009 [source]

A missense mutation (p.Leu2153His) of the factor VIII gene causes cattle haemophilia A

ANIMAL GENETICS, Issue 5 2009
M. Khalaj
Summary Two cases of hereditary bleeding disorder diagnosed as haemophilia A were recently observed in Japanese Brown cattle. We sequenced the entire coding region of the factor VIII gene of the affected animals to find a causative mutation. A nucleotide substitution of T to A resulting in an amino acid substitution of leucine to histidine (p.Leu2153His) was identified in a highly conserved residue in the C1 domain of factor VIII. Genotyping of 254 normal animals including the pedigree of the affected animals and randomly sampled animals of different breeds confirmed that the substitution is the causative mutation of cattle haemophilia A. [source]

Structures of two superoxide dismutases from Bacillus anthracis reveal a novel active centre

ACTA CRYSTALLOGRAPHICA SECTION F (ELECTRONIC), Issue 7 2005
Ian W. Boucher
The BA4499 and BA5696 genes of Bacillus anthracis encode proteins homologous to manganese superoxide dismutase, suggesting that this organism has an expanded repertoire of antioxidant proteins. Differences in metal specificity and quaternary structure between the dismutases of prokaryotes and higher eukaryotes may be exploited in the development of therapeutic antibacterial compounds. Here, the crystal structure of two Mn superoxide dismutases from B. anthracis solved to high resolution are reported. Comparison of their structures reveals that a highly conserved residue near the active centre is substituted in one of the proteins and that this is a characteristic feature of superoxide dismutases from the B. cereus/B. anthracis/B. thuringiensis group of organisms. [source]

Measles virus nucleocapsid transport to the plasma membrane requires stable expression and surface accumulation of the viral matrix protein

CELLULAR MICROBIOLOGY, Issue 5 2007
Nicole Runkler
Summary In measles virus (MV)-infected cells the matrix (M) protein plays a key role in virus assembly and budding processes at the plasma membrane because it mediates the contact between the viral surface glycoproteins and the nucleocapsids. By exchanging valine 101, a highly conserved residue among all paramyxoviral M proteins, we generated a recombinant MV (rMV) from cloned cDNA encoding for a M protein with an increased intracellular turnover. The mutant rMV was barely released from the infected cells. This assembly defect was not due to a defective M binding to other matrix- or nucleoproteins, but could rather be assigned to a reduced ability to associate with cellular membranes, and more importantly, to a defective accumulation at the plasma membrane which was accompanied by the deficient transport of nucleocapsids to the cell surface. Thus, we show for the first time that M stability and accumulation at intracellular membranes is a prerequisite for M and nucleocapsid co-transport to the plasma membrane and for subsequent virus assembly and budding processes. [source]