Your search keyword '"Reader R.H."' showing total 26 results

1. Genome-Wide Mapping of Consanguineous Families Confirms Previously Implicated Gene Loci and Suggests New Loci in Specific Language Impairment (SLI).

Author

Yousaf, Adnan, Hafeez, Huma, Basra, Muhammad Asim Raza, Rice, Mabel L., Raza, Muhammad Hashim, and Shabbir, Muhammad Imran

Subjects

SALIVA analysis, LANGUAGE disorder diagnosis, RESEARCH funding, CHILDREN with disabilities, CONSANGUINITY, GENE mapping, DNA, DESCRIPTIVE statistics, LANGUAGE disorders, GENETIC mutation, PSYCHOLOGICAL tests, GENOMES, SINGLE nucleotide polymorphisms, GENOTYPES, PHENOTYPES

Abstract

Specific language impairment (SLI) is a developmental disorder with substantial genetic contributions. A genome-wide linkage analysis and homozygosity mapping were performed in five consanguineous families from Pakistan. The highest LOD scores of 2.49 at 12p11.22-q11.21 in family PKSLI-31 and 1.92 at 6p in family PKSLI-20 were observed. Homozygosity mapping showed a loss of heterozygosity on 1q25.3-q32.2 and 2q36.3-q37.3 in PKSLI-20. A loss of heterozygosity mapped, in PKSLI-31 and PKSLI-34 flanks, NFXL1 and CNTNAP2, which are genes previously identified in SLI. Our findings report novel SLI loci and corroborate previously reported SLI loci, indicating the utility of a family-based approach. [ABSTRACT FROM AUTHOR]

Published

2024

2. Whole Genome Analysis in Consanguineous Families Reveals New Loci for Speech Sound Disorder (SSD).

Author

Yasmin, Tahira, Sadia, Aatika, Nadeem, Laraib, Basra, Muhammad Asim Raza, Rice, Mabel L., and Raza, Muhammad Hashim

Subjects

ARTICULATION disorders, SPEECH disorders, SPEECH apraxia, ARTICULATION (Speech), SPEECH

Abstract

Speech is the most common means of communication in humans. Any defect in accurate speech production ability results in the development of speech sound disorder (SSD), a condition that can significantly impair an individual's academic performance, social interactions, and relationships with peers and adults. This study investigated the genetic basis of SSD in three Pakistani families. We performed family-based genome-wide parametric linkage analysis and homozygosity mapping in three consanguineous families with SSD from the Punjab province of Pakistan. The Test for Assessment of Articulation and Phonology in Urdu (TAAPU) was used to analyze the speech articulation data and determine the Percentage Correct Consonants (PCC) score. The PCC score defined the affected and unaffected individuals in each family. Parametric linkage analysis revealed a linkage to chromosome 5 (5q21.3-5q23.1) with a significant logarithm of the odds (LOD) score of 3.13 in a Pakistani family with specific language impairment-97 (PKSLI-97) under an autosomal recessive mode of inheritance. The other two families showed a suggestive linkage at 6p22.1, 14q12, and 16q12.1 under the recessive mode of inheritance. Interestingly, homozygosity mapping showed a loss of heterozygosity in the linkage region at 5q15-5q23.1, shared among seven affected (mostly in the younger generation) and one unaffected individual of PKSLI-97. Our analysis identified the 6p22 locus previously implicated in dyslexia, childhood apraxia of speech (CAS), and language impairment, confirming the role of KIAA0319 and DCDC2 in this locus. These findings provide statistical evidence for the genomic regions associated with articulation disorder and offer future opportunities to further the role of genes in speech production. [ABSTRACT FROM AUTHOR]

Published

2024

3. Neuroinflammation and Lysosomal Abnormalities Characterise the Essential Role for Oxidation Resistance 1 in the Developing and Adult Cerebellum.

Author

Bucknor, Eboni M. V., Johnson, Errin, Efthymiou, Stephanie, Alvi, Javeria R., Sultan, Tipu, Houlden, Henry, Maroofian, Reza, Karimiani, Ehsan G., Finelli, Mattéa J., and Oliver, Peter L.

Subjects

NEUROINFLAMMATION, CEREBELLUM, GENE expression, HUMAN abnormalities, CEREBELLAR ataxia, CEREBELLAR cortex, OXIDATIVE stress

Abstract

Loss-of-function mutations in the TLDc family of proteins cause a range of severe childhood-onset neurological disorders with common clinical features that include cerebellar neurodegeneration, ataxia and epilepsy. Of these proteins, oxidation resistance 1 (OXR1) has been implicated in multiple cellular pathways related to antioxidant function, transcriptional regulation and cellular survival; yet how this relates to the specific neuropathological features in disease remains unclear. Here, we investigate a range of loss-of-function mouse model systems and reveal that constitutive deletion of Oxr1 leads to a rapid and striking neuroinflammatory response prior to neurodegeneration that is associated with lysosomal pathology. We go on to show that neuroinflammation and cell death in Oxr1 knockouts can be completely rescued by the neuronal expression of Oxr1, suggesting that the phenotype is driven by the cell-intrinsic defects of neuronal cells lacking the gene. Next, we generate a ubiquitous, adult inducible knockout of Oxr1 that surprisingly displays rapid-onset ataxia and cerebellar neurodegeneration, establishing for the first time that the distinctive pathology associated with the loss of Oxr1 occurs irrespective of developmental stage. Finally, we describe two new homozygous human pathogenic variants in OXR1 that cause neurodevelopmental delay, including a novel stop-gain mutation. We also compare functionally two missense human pathogenic mutations in OXR1, including one newly described here, that cause different clinical phenotypes but demonstrate partially retained neuroprotective activity against oxidative stress. Together, these data highlight the essential role of Oxr1 in modulating neuroinflammatory and lysosomal pathways in the mammalian brain and support the hypothesis that OXR1 protein dosage may be critical for pathological outcomes in disease. [ABSTRACT FROM AUTHOR]

Published

2024

4. External evaluation of a deep learning-based approach for automated brain volumetry in patients with huntington’s disease.

Author

Haase, Robert, Lehnen, Nils Christian, Schmeel, Frederic Carsten, Deike, Katerina, Rüber, Theodor, Radbruch, Alexander, and Paech, Daniel

Abstract

A crucial step in the clinical adaptation of an AI-based tool is an external, independent validation. The aim of this study was to investigate brain atrophy in patients with confirmed, progressed Huntington's disease using a certified software for automated volumetry and to compare the results with the manual measurement methods used in clinical practice as well as volume calculations of the caudate nuclei based on manual segmentations. Twenty-two patients were included retrospectively, consisting of eleven patients with Huntington's disease and caudate nucleus atrophy and an age- and sex-matched control group. To quantify caudate head atrophy, the frontal horn width to intercaudate distance ratio and the intercaudate distance to inner table width ratio were obtained. The software mdbrain was used for automated volumetry. Manually measured ratios and automatically measured volumes of the groups were compared using two-sample t-tests. Pearson correlation analyses were performed. The relative difference between automatically and manually determined volumes of the caudate nuclei was calculated. Both ratios were significantly different between the groups. The automatically and manually determined volumes of the caudate nuclei showed a high level of agreement with a mean relative discrepancy of − 2.3 ± 5.5%. The Huntington's disease group showed significantly lower volumes in a variety of supratentorial brain structures. The highest degree of atrophy was shown for the caudate nucleus, putamen, and pallidum (all p <.0001). The caudate nucleus volume and the ratios were found to be strongly correlated in both groups. In conclusion, in patients with progressed Huntington's disease, it was shown that the automatically determined caudate nucleus volume correlates strongly with measured ratios commonly used in clinical practice. Both methods allowed clear differentiation between groups in this collective. The software additionally allows radiologists to more objectively assess the involvement of a variety of brain structures that are less accessible to standard semiquantitative methods. [ABSTRACT FROM AUTHOR]

Published

2024

5. Innovative Family-Based Genetically Informed Series of Analyses of Whole-Exome Data Supports Likely Inheritance for Grammar in Children with Specific Language Impairment.

Author

Andres, Erin M., Earnest, Kathleen Kelsey, Xuan, Hao, Zhong, Cuncong, Rice, Mabel L., and Raza, Muhammad Hashim

Subjects

DNA analysis, SEQUENCE analysis, GENETIC mutation, SALIVA, FAMILIES, COMPARATIVE grammar, GENETIC variation, FISHER exact test, RISK assessment, RESEARCH funding, GLYCOPROTEINS, DESCRIPTIVE statistics, INTELLECT, SENSITIVITY & specificity (Statistics), GENETIC techniques, LANGUAGE disorders, DIFFUSION of innovations, PHENOTYPES, GENEALOGY, LONGITUDINAL method, MOUTH, DISEASE risk factors, CHILDREN

Abstract

Individuals with specific language impairment (SLI) struggle with language acquisition despite average non-verbal intelligence and otherwise typical development. One SLI account focuses on grammar acquisition delay. The current study aimed to detect novel rare genetic variants associated with performance on a grammar assessment, the Test of Early Grammatical Impairment (TEGI), in English-speaking children. The TEGI was selected due to its sensitivity and specificity, consistently high heritability estimates, and its absence from all but one molecular genetic study. We performed whole exome sequencing (WES) in eight families with SLI (n = 74 total) and follow-up Sanger sequencing in additional unrelated probands (n = 146). We prioritized rare exonic variants shared by individuals with low TEGI performance (n = 34) from at least two families under two filtering workflows: (1) novel and (2) previously reported candidate genes. Candidate variants were observed on six new genes (PDHA2, PCDHB3, FURIN, NOL6, IQGAP3, and BAHCC1), and two genes previously reported for overall language ability (GLI3 and FLNB). We specifically suggest PCDHB3, a protocadherin gene, and NOL6 are critical for ribosome synthesis, as they are important targets of SLI investigation. The proposed SLI candidate genes associated with TEGI performance emphasize the utility of precise phenotyping and family-based genetic study. [ABSTRACT FROM AUTHOR]

Published

2023

6. Differentially Expressed Genes and Molecular Susceptibility to Human Age-Related Diseases.

Author

Shikhevich, Svetlana, Chadaeva, Irina, Khandaev, Bato, Kozhemyakina, Rimma, Zolotareva, Karina, Kazachek, Anna, Oshchepkov, Dmitry, Bogomolov, Anton, Klimova, Natalya V., Ivanisenko, Vladimir A., Demenkov, Pavel, Mustafin, Zakhar, Markel, Arcady, Savinkova, Ludmila, Kolchanov, Nikolay A., Kozlov, Vladimir, and Ponomarenko, Mikhail

Subjects

GENE expression, GENES, NATURAL immunity, RATTUS norvegicus, ADULT respiratory distress syndrome

Abstract

Mainstream transcriptome profiling of susceptibility versus resistance to age-related diseases (ARDs) is focused on differentially expressed genes (DEGs) specific to gender, age, and pathogeneses. This approach fits in well with predictive, preventive, personalized, participatory medicine and helps understand how, why, when, and what ARDs one can develop depending on their genetic background. Within this mainstream paradigm, we wanted to find out whether the known ARD-linked DEGs available in PubMed can reveal a molecular marker that will serve the purpose in anyone's any tissue at any time. We sequenced the periaqueductal gray (PAG) transcriptome of tame versus aggressive rats, identified rat-behavior-related DEGs, and compared them with their known homologous animal ARD-linked DEGs. This analysis yielded statistically significant correlations between behavior-related and ARD-susceptibility-related fold changes (log2 values) in the expression of these DEG homologs. We found principal components, PC1 and PC2, corresponding to the half-sum and the half-difference of these log2 values, respectively. With the DEGs linked to ARD susceptibility and ARD resistance in humans used as controls, we verified these principal components. This yielded only one statistically significant common molecular marker for ARDs: an excess of Fcγ receptor IIb suppressing immune cell hyperactivation. [ABSTRACT FROM AUTHOR]

Published

2023

7. MeerKAT RFI environment modeling and metrology.

Author

Reader, H C, Otto, A J, van der Merwe, P S, Wiid, P G, Andriambeloson, J A, and Botha, A R

Abstract

Our research group has contributed to the characterization and mitigation of radio frequency interference (RFI) associated with telescope and infrastructural developments for the Karoo Array Telescope. The Karoo core site is found in the Northern Cape of South Africa. The scale and computational modeling of systems and telescopes, along with actual site testing of RFI and mitigation procedures, will be outlined in this overview paper. A challenge for RFI management for South African and Australian future Square Kilometre Array developments will be posed. [ABSTRACT FROM PUBLISHER]

Published

2012

8. Dyslexia and Attention Deficit Hyperactivity Disorder Associated to a De Novo 1p34.3 Microdeletion.

Author

Galesi, Ornella, Di Blasi, Francesco Domenico, Grillo, Lucia, Elia, Flaviana, Giambirtone, Maria Concetta, Figura, Maria Grazia, Rizzo, Biagio, Buono, Serafino, and Romano, Corrado

Subjects

ATTENTION-deficit hyperactivity disorder, DYSLEXIA

Abstract

The authors report on a boy with dyslexia and attention deficit hyperactivity disorder. A protocol of standardized tests assessed the neuroadaptive profile, allowing deep neuropsychiatric phenotyping. In addition to the diagnosis of dyslexia and attention deficit hyperactivity disorder, such methodology led to endeavor cognitive, adaptive, and academic skills. Chromosomal microarray analysis detected a 452.4 Kb de novo heterozygous microdeletion in chromosomal region 1p34.3, including seven OMIM genes. The authors took a thorough evaluation of the association to the phenotype of the deleted genes. Further reports could strengthen such association. [ABSTRACT FROM AUTHOR]

Published

2022

9. An Alzheimer's Disease Patient-Derived Olfactory Stem Cell Model Identifies Gene Expression Changes Associated with Cognition.

Author

Rantanen, Laura M., Bitar, Maina, Lampinen, Riikka, Stewart, Romal, Quek, Hazel, Oikari, Lotta E., Cunί-Lόpez, Carla, Sutharsan, Ratneswary, Thillaiyampalam, Gayathri, Iqbal, Jamila, Russell, Daniel, Penttilä, Elina, Löppönen, Heikki, Lehtola, Juha-Matti, Saari, Toni, Hannonen, Sanna, Koivisto, Anne M., Haupt, Larisa M., Mackay-Sim, Alan, and Cristino, Alexandre S.

Subjects

ALZHEIMER'S disease, GENE expression, ALTERNATIVE RNA splicing, STEM cells, MILD cognitive impairment, CELLULAR aging, OLFACTORY receptors, NEUROPEPTIDE Y

Abstract

An early symptom of Alzheimer's disease (AD) is an impaired sense of smell, for which the molecular basis remains elusive. Here, we generated human olfactory neurosphere-derived (ONS) cells from people with AD and mild cognitive impairment (MCI), and performed global RNA sequencing to determine gene expression changes. ONS cells expressed markers of neuroglial differentiation, providing a unique cellular model to explore changes of early AD-associated pathways. Our transcriptomics data from ONS cells revealed differentially expressed genes (DEGs) associated with cognitive processes in AD cells compared to MCI, or matched healthy controls (HC). A-Kinase Anchoring Protein 6 (AKAP6) was the most significantly altered gene in AD compared to both MCI and HC, and has been linked to cognitive function. The greatest change in gene expression of all DEGs occurred between AD and MCI. Gene pathway analysis revealed defects in multiple cellular processes with aging, intellectual deficiency and alternative splicing being the most significantly dysregulated in AD ONS cells. Our results demonstrate that ONS cells can provide a cellular model for AD that recapitulates disease-associated differences. We have revealed potential novel genes, including AKAP6 that may have a role in AD, particularly MCI to AD transition, and should be further examined. [ABSTRACT FROM AUTHOR]

Published

2022

10. Development of Anti-LRRC15 Small Fragments for Imaging Purposes Using a Phage-Display ScFv Approach.

Author

Baurand, Pierre-Emmanuel, Balland, Jérémy, Reynas, Chloé, Ramseyer, Mélanie, Vivier, Delphine, Bellaye, Pierre-Simon, Collin, Bertrand, Paul, Catherine, Denat, Franck, Asgarov, Kamal, Pallandre, Jean-René, and Ringenbach, Laurence

Subjects

FIBROBLASTS, MEMBRANE proteins, FLOW cytometry, LYMPH nodes, CELL lines, RADIOLABELING

Abstract

The human leucine-rich repeat-containing protein 15 (LRRC15) is a membrane protein identified as a marker of CAF (cancer-associated fibroblast) cells whose overexpression is positively correlated with cancer grade and outcome. Nuclear molecular imaging (i.e., SPECT and PET) to track LRRC15 expression could be very useful in guiding further therapeutic strategies. In this study, we developed an ScFv mouse phage-display library to obtain small fragment antibodies against human LRRC15 for molecular imaging purposes. Mice were immunized with recombinant human LRRC15 (hLRRC15), and lymph node cells were harvested for ScFv (single-chain variable fragment) phage-display analysis. The built library was used for panning on cell lines with constitutive or induced expression after transfection. The choice of best candidates was performed by screening various other cell lines, using flow cytometry. The selected candidates were reformatted into Cys-ScFv or Cys-diabody by addition of cysteine, and cloned in mammalian expression vectors to obtain batches of small fragments that were further used in site-specific radiolabeling tests. The obtained library was 1.2 × 107 cfu/µg with an insertion rate >95%. The two panning rounds performed on cells permittedenrichment of 2 × 10−3. Screening with flow cytometry allowed us to identify 28 specific hLRRC15 candidates. Among these, two also recognized murine LRCC15 and were reformatted into Cys-ScFv and Cys-diabody. They were expressed transiently in a mammalian system to obtain 1.0 to 4.5 mg of Cys fragments ready for bioconjugation and radiolabeling. Thus, in this paper, we demonstrate the relevance of the phage-display ScFv library approach for the fast-track development of small antibodies for imaging and/or immunotherapy purposes. [ABSTRACT FROM AUTHOR]

Published

2022

11. Development of a Highly Sensitive and Specific ic-ELISA and Lateral Flow Immunoassay for Diacetoxyscirpenol.

Author

Shao, Shibei, Shang, Wenhua, Bai, Yuchen, Dou, Leina, Zhang, Suxia, Shen, Jianzhong, Wang, Zhanhui, and Wen, Kai

Subjects

MOLECULAR recognition, ENZYME-linked immunosorbent assay, IMMUNOASSAY, MONOCLONAL antibodies, MOLECULAR docking, HYDROGEN bonding, DETECTION limit

Abstract

To monitor the contamination of a type A trichothecene, diacetoxyscirpenol (DAS), one monoclonal antibody (mAb) 8A9 with high affinity and specificity was prepared in the present study. The mAb 8A9 showed a 50% inhibition concentration (IC50) of 0.31 μg/L, which is of the highest affinity reported to date. An indirect competitive enzyme-linked immunosorbent assay (ic-ELISA) and lateral flow immunoassay (LFIA) based on mAb 8A9 were developed and exhibited limits of detection as low as 0.65 μg/kg and 100 μg/kg in rice samples, respectively. The molecular recognition mechanism of mAb 8A9 to DAS was explored by molecular docking. The results showed that the hydrophobic amino acids of mAb 8A9 interacted with DAS by forming hydrogen bonds and a pi-sigma bond, which lead to a highly specific recognition of DAS. In summary, we produced one mAb, developed ELISA and LFIA for DAS detection in rice with significantly sensitivity, specificity, accuracy, and precision. [ABSTRACT FROM AUTHOR]

Published

2022

12. The Genetic and Molecular Basis of Developmental Language Disorder: A Review.

Author

Mountford, Hayley S., Braden, Ruth, Newbury, Dianne F., and Morgan, Angela T.

Subjects

GENETICS, LANGUAGE acquisition, MOLECULAR biology, GENOMES, LANGUAGE disorders, CHILD development deviations, PHENOTYPES, EPIGENOMICS, DISEASE risk factors, CHILDREN

Abstract

Language disorders are highly heritable and are influenced by complex interactions between genetic and environmental factors. Despite more than twenty years of research, we still lack critical understanding of the biological underpinnings of language. This review provides an overview of the genetic landscape of developmental language disorders (DLD), with an emphasis on the importance of defining the specific features (the phenotype) of DLD to inform gene discovery. We review the specific phenotype of DLD in the genetic literature, and the influence of historic variation in diagnostic inclusion criteria on researchers' ability to compare and replicate genotype–phenotype studies. This review provides an overview of the recently identified gene pathways in populations with DLD and explores current state-of-the-art approaches to genetic analysis based on the hypothesised architecture of DLD. We will show how recent global efforts to unify diagnostic criteria have vastly increased sample size and allow for large multi-cohort metanalyses, leading the identification of a growing number of contributory loci. We emphasise the important role of estimating the genetic architecture of DLD to decipher underlying genetic associations. Finally, we explore the potential for epigenetics and environmental interactions to further unravel the biological basis of language disorders. [ABSTRACT FROM AUTHOR]

Published

2022

13. A rare missense variant in the ATP2C2 gene is associated with language impairment and related measures.

Author

Martinelli, Angela, Rice, Mabel L, Talcott, Joel B, Diaz, Rebeca, Smith, Shelley, Raza, Muhammad Hashim, Snowling, Margaret J, Hulme, Charles, Stein, John, Hayiou-Thomas, Marianna E, Hawi, Ziarih, Kent, Lindsey, Pitt, Samantha J, Newbury, Dianne F, and Paracchini, Silvia

Published

2021

14. Juvenile idiopathic arthritis: magnetic resonance imaging of the clinically unaffected knee.

Author

Maas, Mario, Hemke, Robert, van Gulik, E. Charlotte, Barendregt, Anouk M., Nusman, Charlotte M., Welsink-Karssies, Mendy M., van den Berg, J. Merlijn, Schonenberg-Meinema, Dieneke, Kuijpers, Taco W., and Dolman, Koert M.

Subjects

JUVENILE idiopathic arthritis, SYNOVIAL membranes, MAGNETIC resonance imaging, CHILDREN with disabilities, PEDIATRIC rheumatology, THERAPEUTICS

Abstract

Background: Synovial thickening detected on magnetic resonance imaging (MRI) is present in a significant number of children with clinically inactive juvenile idiopathic arthritis (JIA).Objective: To evaluate patient characteristics and disease activity parameters in a cohort of children with clinically inactive JIA, both with and without synovial thickening, in order to clarify the observed discrepancy between clinical and MRI assessments.Materials and Methods: We prospectively enrolled 52 clinically inactive JIA patients (median age 13.3 years, 63.5% girls) who underwent MRI of the knee as major target joint in JIA. Children were divided into two groups based on MRI outcome: group 1, with synovial thickening on MRI; and group 2, with no synovial thickening on MRI. We used the Juvenile Arthritis MRI Scoring system to evaluate synovial thickness. We compared patient characteristics and disease activity parameters between the groups.Results: Synovial thickening on MRI was present in 18 clinically inactive patients (group 1, 34.6%). The age was significantly lower for the patients in group 1 (median 10.7 versus 14.4, P=0.008). No significant differences were observed in any of the other patient characteristics nor the disease activity parameters tested.Conclusion: Synovial thickening on MRI was present in nearly 35% of the children with clinically inactive JIA. Children with synovial thickening on MRI were significantly younger than those without. This might indicate that younger patients are at risk of subclinical disease activity and under-treatment, although the exact clinical relevance of synovial thickening on MRI has not been determined. [ABSTRACT FROM AUTHOR]

Published

2018

15. High-Throughput Monoclonal Antibody Discovery from Phage Libraries: Challenging the Current Preclinical Pipeline to Keep the Pace with the Increasing mAb Demand.

Author

Zambrano, Nicola, Froechlich, Guendalina, Lazarevic, Dejan, Passariello, Margherita, Nicosia, Alfredo, De Lorenzo, Claudia, Morelli, Marco J., and Sasso, Emanuele

Subjects

HIGH throughput screening (Drug development), BIOLOGICAL models, IMMUNOGLOBULINS, SEQUENCE analysis, MONOCLONAL antibodies, GENETIC techniques

Abstract

Simple Summary: Monoclonal antibodies are increasingly used for a broad range of diseases. Rising demand must face with time time-consuming and laborious processes to isolate novel monoclonal antibodies. Next-generation sequencing coupled to phage display provides timely and sustainable high throughput selection strategy to rapidly access novel target. Here, we describe the current NGS-guided strategies to identify potential binders from enriched sub-libraires by applying a user-friendly informatic pipeline to identify and discard false positive clones. Rescue step and strategies to boost mAb yield are also discussed to improve the limiting selection and screening steps. Monoclonal antibodies are among the most powerful therapeutics in modern medicine. Since the approval of the first therapeutic antibody in 1986, monoclonal antibodies keep holding great expectations for application in a range of clinical indications, highlighting the need to provide timely and sustainable access to powerful screening options. However, their application in the past has been limited by time-consuming and expensive steps of discovery and production. The screening of antibody repertoires is a laborious step; however, the implementation of next-generation sequencing-guided screening of single-chain antibody fragments has now largely overcome this issue. This review provides a detailed overview of the current strategies for the identification of monoclonal antibodies from phage display-based libraries. We also discuss the challenges and the possible solutions to improve the limiting selection and screening steps, in order to keep pace with the increasing demand for monoclonal antibodies. [ABSTRACT FROM AUTHOR]

Published

2022

16. Family-Based Whole-Exome Analysis of Specific Language Impairment (SLI) Identifies Rare Variants in BUD13 , a Component of the Retention and Splicing (RES) Complex.

Author

Andres, Erin M., Earnest, Kathleen Kelsey, Zhong, Cuncong, Rice, Mabel L., and Raza, Muhammad Hashim

Subjects

SPECIFIC language impairment in children, GENOMES, PHENOTYPES, LOCUS (Genetics)

Abstract

Specific language impairment (SLI) is a common neurodevelopmental disorder (NDD) that displays high heritability estimates. Genetic studies have identified several loci, but the molecular basis of SLI remains unclear. With the aim to better understand the genetic architecture of SLI, we performed whole-exome sequencing (WES) in a single family (ID: 489; n = 11). We identified co-segregating rare variants in three new genes: BUD13, APLP2, and NDRG2. To determine the significance of these genes in SLI, we Sanger sequenced all coding regions of each gene in unrelated individuals with SLI (n = 175). We observed 13 additional rare variants in 18 unrelated individuals. Variants in BUD13 reached genome-wide significance (p-value < 0.01) upon comparison with similar variants in the 1000 Genomes Project, providing gene level evidence that BUD13 is involved in SLI. Additionally, five BUD13 variants showed cohesive variant level evidence of likely pathogenicity. Bud13 is a component of the retention and splicing (RES) complex. Additional supportive evidence from studies of an animal model (loss-of-function mutations in BUD13 caused a profound neural phenotype) and individuals with an NDD phenotype (carrying a CNV spanning BUD13), indicates BUD13 could be a target for investigation of the neural basis of language. [ABSTRACT FROM AUTHOR]

Published

2022

17. In vitro transcription of plant RNA polymerase I-dependent rRNA genes is species-specific.

Author

Fan, Hao, Yakura, Kimitaka, Miyanishi, Masako, Sugita, Mamoru, and Sugiura, Masahiro

Published

1995

18. The mechanism of transcription termination by RNA polymerase I.

Author

Reeder, Ronald H. and Lang, Walter

Subjects

RIBOSOMES, EUKARYOTIC cells, RNA polymerases, DNA-binding proteins, NUCLEOTIDE sequence

Abstract

Eukaryotic ribosomal gene transcription units are bordered at their 3′ ends by short DNA sequences which specify site-specific termination by RNA polymerase I (poll). Poll terminators from yeast through to mammals appear to follow similar rules: they contain a site for a sequence-specific DNA-binding protein; they function only in one orientation; 3′ ends are formed upstream of the binding site; and 5′ flanking sequences influence the position and efficiency of 3′ end formation. Recent progress in understanding the mechanism of RNA chain elongation by other polymerases suggests a model for poll termination in which termination is seen as one of the several outcomes possible when a polymerase encounters a pause site. [ABSTRACT FROM AUTHOR]

Published

1994

19. The molecular structure of the<em>Corynebacterium glutamicum</em> threonine synthase gene.

Author

Han, K.-S., Archer, J. A. C., and Sinskey, A. J.

Subjects

CORYNEBACTERIUM, PLASMIDS, NUCLEOTIDE sequence, GENETIC transcription, NUCLEOTIDES, GENES

Abstract

The minimal region encoding the Corynebacterium glutamicum threonine synthase structural gene and its promoter was mapped by deletion analysis and complementation of the C. glutamicum thrC allele to a 1.6 kb region of the recombinant plasmid pFS80. The nucleotide sequence of this and flanking DNA was determined. The transcription and translation start points were identified by S1 mapping analysis and amino-terminal protein sequencing, respectively. The thrC gene encodes a 54481-Dalton polypeptide product. Translation of the thrC mRNA initiates only six nucleotides downstream from transcription. The length of the mRNA transcript is consistent with a single gene transcription unit. The C. glutamicum thrC gene is expressed independently of the other threo-nine- specific genes hom and thrB. [ABSTRACT FROM AUTHOR]

Published

1990

20. The interaction of RNA polymerase II from wheat with supercoiled and linear plasmid templates.

Author

Lilley, D.M.J. and Houghton, M.

Published

1979

21. The sequence and structure of a new serum amyloid A gene.

Author

Stearman, Robert S., Lowell, Clifford A., Peltzman, Cynthia G., and Morrow, John F.

Published

1986

22. Nucleotide sequence of the guaB locus encoding IMP dehydrogenaseof Escherichia coli K12.

Author

Tiedeman, Amelia A. and Smith, John M.

Published

1985

23. Deciphering the Biological Mechanisms Underlying the Genome-Wide Associations between Computerized Device Use and Psychiatric Disorders.

Author

Wendt, Frank R, Muniz Carvalho, Carolina, Pathak, Gita A., Gelernter, Joel, and Polimanti, Renato

Subjects

MENTAL illness, CONTINUOUS performance test, GENETIC correlations, ATTENTION-deficit hyperactivity disorder, SINGLE nucleotide polymorphisms, LATENT variables

Abstract

Computerized device use (CDU) is societally ubiquitous but its effects on mental health are unknown. We performed genetic correlation, Mendelian randomization, and latent causal variable analyses to identify shared genetic mechanisms between psychiatric disorders (Psychiatric Genomics Consortium; 14,477 < N < 150,064) and CDU (UK Biobank; N = 361,194 individuals). Using linkage disequilibrium score regression, we detected strong genetic correlations between "weekly usage of mobile phone in last 3 months" (PhoneUse) vs. attention deficit hyperactivity disorder (ADHD; rg = 0.425, p = 4.59 × 10−29) and "plays computer games" (CompGaming) vs. schizophrenia (SCZ; rg = −0.271, p = 7.16 × 10−26). Focusing on these correlations, we used two sample MRs to detect the causal relationships between trait pairs by treating single nucleotide polymorphisms as non-modifiable risk factors underlying both phenotypes. Significant bidirectional associations were detected (PhoneUse→ADHD β = 0.132, p = 1.89 × 10−4 and ADHD→PhoneUse β = 0.084, p = 2.86 × 10−10; CompGaming→SCZ β = −0.02, p = 6.46 × 10−25 and CompGaming→SCZ β = −0.194, p = 0.005) and the latent causal variable analyses did not support a causal relationship independent of the genetic correlations between these traits. This suggests that molecular pathways contribute to the genetic overlap between these traits. Dopamine transport enrichment (Gene Ontology:0015872, pSCZvsCompGaming = 2.74 × 10−10) and DRD2 association (pSCZ = 7.94 × 10−8; pCompGaming = 3.98 × 10−25) were detected in SCZ and CompGaming and support their negative correlative relationship. FOXP2 was significantly associated with ADHD (p = 9.32 × 10−7) and PhoneUse (p = 9.00 × 10−11) with effect directions concordant with their positive genetic correlation. Our study demonstrates that epidemiological associations between psychiatric disorders and CDUs are due, in part, to the molecular mechanisms shared between them rather than a causal relationship. Our findings imply that biological mechanisms underlying CDU contribute to the psychiatric phenotype manifestation. [ABSTRACT FROM AUTHOR]

Published

2019

24. Gender Related Changes in Gene Expression Induced by Valproic Acid in A Mouse Model of Autism and the Correction by S-adenosyl Methionine. Does It Explain the Gender Differences in Autistic Like Behavior?

Author

Weinstein-Fudim, Liza, Ergaz, Zivanit, Turgeman, Gadi, Yanai, Joseph, Szyf, Moshe, and Ornoy, Asher

Subjects

VALPROIC acid, GENE expression, AUTISM, GENDER, METHIONINE

Abstract

In previous studies we produced autism like behavioral changes in mice by Valproic acid (VPA) with significant differences between genders. S-adenosine methionine (SAM) prevented the autism like behavior in both genders. The expression of 770 genes of pathways involved in neurophysiology and neuropathology was studied in the prefrontal cortex of 60 days old male and female mice using the NanoString nCounter. In females, VPA induced statistically significant changes in the expression of 146 genes; 71 genes were upregulated and 75 downregulated. In males, VPA changed the expression of only 19 genes, 16 were upregulated and 3 downregulated. Eight genes were similarly changed in both genders. When considering only the genes that were changed by at least 50%, VPA changed the expression of 15 genes in females and 3 in males. Only Nts was similarly downregulated in both genders. SAM normalized the expression of most changed genes in both genders. We presume that genes that are involved in autism like behavior in our model were similarly changed in both genders and corrected by SAM. The behavioral and other differences between genders may be related to genes that were differently affected by VPA in males and females and/or differently affected by SAM. [ABSTRACT FROM AUTHOR]

Published

2019

25. Preparation and interaction mechanism analysis of single-chain fragment variables against phenylethanolamine A

Author

Li, Long, Hou, Ren, Li, Huaming, Han, Shiyun, Liang, Jixiang, Si, Yu, and Peng, Dapeng

Published

2024

26. Juvenile idiopathic arthritis: magnetic resonance imaging of the clinically unaffected knee

Author

van Gulik, E. Charlotte, Welsink-Karssies, Mendy M., van den Berg, J. Merlijn, Schonenberg-Meinema, Dieneke, Dolman, Koert M., Barendregt, Anouk M., Nusman, Charlotte M., Maas, Mario, Kuijpers, Taco W., and Hemke, Robert

Published

2018