scholarly journals The Genomic Architecture of Novel Simulium damnosum Wolbachia Prophage Sequence Elements and Implications for Onchocerciasis Epidemiology

2017 ◽  
Vol 8 ◽  
Author(s):  
James L. Crainey ◽  
Jacob Hurst ◽  
Poppy H. L. Lamberton ◽  
Robert A. Cheke ◽  
Claire E. Griffin ◽  
...  
Keyword(s):  
Genomic Architecture ◽  
Simulium Damnosum ◽  
Sequence Elements ◽  
Prophage Sequence

Activation of Factor X by Factor VIIa Complexed with Human-mouse Tissue Factor Chimeras Requires Human Exon 3

1996 ◽  
Vol 76 (03) ◽  
pp. 361-368 ◽  
Author(s):  
Carrie H Fang ◽  
T-C Lin ◽  
Arabinda Guha ◽  
Yale Nemerson ◽  
William H Konigsberg
Keyword(s):  
Tissue Factor ◽  
Human Factor ◽  
Factor Viia ◽  
Mouse Tissue ◽  
Factor X ◽  
Lower Affinity ◽  
E Coli ◽  
Sequence Elements ◽  
Specific Activities ◽  
Human And Mouse

SummaryIn an attempt to define sequence elements in human and mouse tissue factor (TF) that are responsible for the species specificity observed in their interaction with human factor VIIa (HVIIa), we constructed human-mouse chimeric TF cDNAs, inserted them into plasmid vectors, and induced their expression in E.coli. Assays for procoagulant activity were carried out with the resulting E. coli lysates using (HVIIa) human and mouse (MVIIa). The ratio of the procoagulant activities, HVIIa/MVIIa, revealed that human TF exon 3 was essential for activity when the TF:VIIa complex was formed with HVIIa. By ligating the maltose binding protein (MBP) gene to TF cDNAs it was possible to construct, express and purify MBP-TF chimeras as well as to estimate their specific activities. With selected MBP-TF chimeras and HVIIa we determined kinetic parameters for the activation of human factor X. Replacement of exon 3 in human TF cDNA with the corresponding exon from mouse TF cDNA resulted in both lower affinity for HVIIa and failure to convert bound HVIIa into a potent protease

scholarly journals The Genomic Architecture of Bladder Exstrophy Epispadias Complex

Genes ◽  
2021 ◽  
Vol 12 (8) ◽  
pp. 1149
Author(s):  
Glenda M. Beaman ◽  
Raimondo M. Cervellione ◽  
David Keene ◽  
Heiko Reutter ◽  
William G. Newman
Keyword(s):  
Urinary Tract ◽  
Animal Models ◽  
Abdominal Wall ◽  
Current Knowledge ◽  
Bladder Exstrophy ◽  
Genomic Architecture ◽  
Developmental Mechanisms ◽  
Anatomical Characterization

The bladder exstrophy–epispadias complex (BEEC) is an abdominal midline malformation comprising a spectrum of congenital genitourinary abnormalities of the abdominal wall, pelvis, urinary tract, genitalia, anus, and spine. The vast majority of BEEC cases are classified as non-syndromic and the etiology of this malformation is still unknown. This review presents the current knowledge on this multifactorial disorder, including phenotypic and anatomical characterization, epidemiology, proposed developmental mechanisms, existing animal models, and implicated genetic and environmental components.

scholarly journals Ruler elements in chromatin remodelers set nucleosome array spacing and phasing

2021 ◽  
Vol 12 (1) ◽  
Author(s):  
Elisa Oberbeckmann ◽  
Vanessa Niebauer ◽  
Shinya Watanabe ◽  
Lucas Farnung ◽  
Manuela Moldt ◽  
...  
Keyword(s):  
Phased Arrays ◽  
Stable Steady State ◽  
Reference Sites ◽  
Chromatin Remodelers ◽  
Sliding Direction ◽  
Nucleosome Dynamics ◽  
Genome Wide ◽  
Sequence Elements ◽  
Nucleosome Array ◽  
Dna Ends

AbstractArrays of regularly spaced nucleosomes dominate chromatin and are often phased by alignment to reference sites like active promoters. How the distances between nucleosomes (spacing), and between phasing sites and nucleosomes are determined remains unclear, and specifically, how ATP-dependent chromatin remodelers impact these features. Here, we used genome-wide reconstitution to probe how Saccharomyces cerevisiae ATP-dependent remodelers generate phased arrays of regularly spaced nucleosomes. We find that remodelers bear a functional element named the ‘ruler’ that determines spacing and phasing in a remodeler-specific way. We use structure-based mutagenesis to identify and tune the ruler element residing in the Nhp10 and Arp8 modules of the INO80 remodeler complex. Generally, we propose that a remodeler ruler regulates nucleosome sliding direction bias in response to (epi)genetic information. This finally conceptualizes how remodeler-mediated nucleosome dynamics determine stable steady-state nucleosome positioning relative to other nucleosomes, DNA bound factors, DNA ends and DNA sequence elements.

scholarly journals Olfactory expression of trace amine-associated receptors requires cooperative cis-acting enhancers

2021 ◽  
Vol 12 (1) ◽  
Author(s):  
Ami Shah ◽  
Madison Ratkowski ◽  
Alessandro Rosa ◽  
Paul Feinstein ◽  
Thomas Bozza
Keyword(s):  
Gene Expression ◽  
Large Family ◽  
Sequence Motifs ◽  
Specific Expression ◽  
Cis Acting ◽  
Conserved Sequence ◽  
Trace Amine ◽  
Sequence Elements ◽  
Cell Type Specific Expression ◽  
Cell Type Specific

AbstractOlfactory sensory neurons express a large family of odorant receptors (ORs) and a small family of trace amine-associated receptors (TAARs). While both families are subject to so-called singular expression (expression of one allele of one gene), the mechanisms underlying TAAR gene choice remain obscure. Here, we report the identification of two conserved sequence elements in the mouse TAAR cluster (T-elements) that are required for TAAR gene expression. We observed that cell-type-specific expression of a TAAR-derived transgene required either T-element. Moreover, deleting either element reduced or abolished expression of a subset of TAAR genes, while deleting both elements abolished olfactory expression of all TAARs in cis with the mutation. The T-elements exhibit several features of known OR enhancers but also contain highly conserved, unique sequence motifs. Our data demonstrate that TAAR gene expression requires two cooperative cis-acting enhancers and suggest that ORs and TAARs share similar mechanisms of singular expression.

scholarly journals Functional genomic analyses uncover APOE-mediated regulation of brain and cerebrospinal fluid beta-amyloid levels in Parkinson disease

2020 ◽  
Vol 8 (1) ◽  
Author(s):  
Laura Ibanez ◽  
Jorge A. Bahena ◽  
Chengran Yang ◽  
Umber Dube ◽  
Fabiana H. G. Farias ◽  
...  
Keyword(s):  
Parkinson’S Disease ◽  
Parkinson's Disease ◽  
Amyloid Beta ◽  
Alpha Synuclein ◽  
Phosphorylated Tau ◽  
Polygenic Risk ◽  
Total Tau ◽  
Genomic Architecture ◽  
Genome Wide ◽  
Csf Biomarker

AbstractAlpha-synuclein is the main protein component of Lewy bodies, the pathological hallmark of Parkinson’s disease. However, genetic modifiers of cerebrospinal fluid (CSF) alpha-synuclein levels remain unknown. The use of CSF levels of amyloid beta1–42, total tau, and phosphorylated tau181 as quantitative traits in genetic studies have provided novel insights into Alzheimer’s disease pathophysiology. A systematic study of the genomic architecture of CSF biomarkers in Parkinson’s disease has not yet been conducted. Here, genome-wide association studies of CSF biomarker levels in a cohort of individuals with Parkinson’s disease and controls (N = 1960) were performed. PD cases exhibited significantly lower CSF biomarker levels compared to controls. A SNP, proxy for APOE ε4, was associated with CSF amyloid beta1–42 levels (effect = − 0.5, p = 9.2 × 10−19). No genome-wide loci associated with CSF alpha-synuclein, total tau, or phosphorylated tau181 levels were identified in PD cohorts. Polygenic risk score constructed using the latest Parkinson’s disease risk meta-analysis were associated with Parkinson’s disease status (p = 0.035) and the genomic architecture of CSF amyloid beta1–42 (R2 = 2.29%; p = 2.5 × 10−11). Individuals with higher polygenic risk scores for PD risk presented with lower CSF amyloid beta1–42 levels (p = 7.3 × 10−04). Two-sample Mendelian Randomization revealed that CSF amyloid beta1–42 plays a role in Parkinson’s disease (p = 1.4 × 10−05) and age at onset (p = 7.6 × 10−06), an effect mainly mediated by variants in the APOE locus. In a subset of PD samples, the APOE ε4 allele was associated with significantly lower levels of CSF amyloid beta1–42 (p = 3.8 × 10−06), higher mean cortical binding potentials (p = 5.8 × 10−08), and higher Braak amyloid beta score (p = 4.4 × 10−04). Together these results from high-throughput and hypothesis-free approaches converge on a genetic link between Parkinson’s disease, CSF amyloid beta1–42, and APOE.

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