Your search keyword '"Kalmar, Lajos"' showing total 6 results

1. HAM-ART: An optimised culture-free Hi-C metagenomics pipeline for tracking antimicrobial resistance genes in complex microbial communities

Author

Kalmar, Lajos, primary, Gupta, Srishti, additional, Kean, Iain R. L., additional, Ba, Xiaoliang, additional, Hadjirin, Nazreen, additional, Lay, Elizabeth M., additional, de Vries, Stefan P. W., additional, Bateman, Michael, additional, Bartlet, Harriet, additional, Hernandez-Garcia, Juan, additional, Tucker, Alexander W., additional, Restif, Olivier, additional, Stevens, Mark P., additional, Wood, James L. N., additional, Maskell, Duncan J., additional, Grant, Andrew J., additional, and Holmes, Mark A., additional

Published

2022

2. Characterisation of canine KCNIP4: A novel gene for cerebellar ataxia identified by whole-genome sequencing two affected Norwegian Buhund dogs

Author

Jenkins, Christopher A., primary, Kalmar, Lajos, additional, Matiasek, Kaspar, additional, Mari, Lorenzo, additional, Kyöstilä, Kaisa, additional, Lohi, Hannes, additional, Schofield, Ellen C., additional, Mellersh, Cathryn S., additional, De Risio, Luisa, additional, and Ricketts, Sally L., additional

Published

2020

3. Conformational risk factors of brachycephalic obstructive airway syndrome (BOAS) in pugs, French bulldogs, and bulldogs

Author

Liu, Nai-Chieh, primary, Troconis, Eileen L., additional, Kalmar, Lajos, additional, Price, David J., additional, Wright, Hattie E., additional, Adams, Vicki J., additional, Sargan, David R., additional, and Ladlow, Jane F., additional

Published

2017

4. Reduction in Structural Disorder and Functional Complexity in the Thermal Adaptation of Prokaryotes

Author

Burra, Prasad V., primary, Kalmar, Lajos, additional, and Tompa, Peter, additional

Published

2010

5. HAM-ART: An optimised culture-free Hi-C metagenomics pipeline for tracking antimicrobial resistance genes in complex microbial communities

Author

Nazreen F. Hadjirin, Elizabeth Lay, Duncan J. Maskell, Iain Kean, Andrew J. Grant, Xiaoliang Ba, Lajos Kalmar, James L. N. Wood, Sunil Gupta, O. Restiff, S. P. W. de Vries, Harriet Bartlett, Mark A. Holmes, Juan Hernandez-Garcia, Alexander W. Tucker, Mark P. Stevens, Michael D. Bateman, Kalmar, Lajos [0000-0003-3691-8350], Gupta, Srishti [0000-0001-6721-1783], Kean, Iain [0000-0003-1066-8285], Ba, Xiaoliang [0000-0002-3882-3585], de Vries, Stefan PW [0000-0002-0823-208X], Bartlet, Harriet [0000-0002-7389-8785], Hernandez-Garcia, Juan [0000-0001-5932-9327], Tucker, Alexander [0000-0003-0062-0843], Restif, Olivier [0000-0001-9158-853X], Wood, James [0000-0002-0258-3188], Maskell, Duncan J [0000-0002-5065-653X], Grant, Andrew [0000-0001-9746-2989], Holmes, Mark [0000-0002-5454-1625], Apollo - University of Cambridge Repository, Kean, Iain RL [0000-0003-1066-8285], Tucker, Alexander W [0000-0003-0062-0843], Wood, James LN [0000-0002-0258-3188], Grant, Andrew J [0000-0001-9746-2989], and Holmes, Mark A [0000-0002-5454-1625]

Subjects

Cancer Research, Swine, Circular bacterial chromosome, Microbiota, Drug Resistance, Bacterial/genetics, Computational biology, Biology, Anti-Infective Agents/pharmacology, Genome, Anti-Bacterial Agents, Plasmid, Antibiotic resistance, Anti-Infective Agents, Metagenomics, Extrachromosomal DNA, Drug Resistance, Bacterial, Genetics, Animals, Microbiome, Mobile genetic elements, Molecular Biology, Genetics (clinical), Ecology, Evolution, Behavior and Systematics

Abstract

Shotgun metagenomics is a powerful tool to identify antimicrobial resistance (AMR) genes in microbiomes but has the limitation that extrachromosomal DNA, such as plasmids, cannot be linked with the host bacterial chromosome. Here we present a laboratory and bioinformatics pipeline HAM-ART (Hi-C Assisted Metagenomics for Antimicrobial Resistance Tracking) optimised for the generation of metagenome-assembled genomes including both chromosomal and extrachromosomal AMR genes. We demonstrate the performance of the pipeline in a study comparing 100 pig faecal microbiomes from low- and high-antimicrobial use pig farms (organic and conventional farms). We found significant differences in the distribution of AMR genes between low- and high-antimicrobial use farms including a plasmid-borne lincosamide resistance gene exclusive to high-antimicrobial use farms in three species of Lactobacilli.Author SummaryAntimicrobial resistance (AMR) is one of the biggest global health threats humanity is facing. Understanding the emergence and spread of AMR between different bacterial species is crucial for the development of effective countermeasures. In this paper we describe a user-friendly, affordable and comprehensive (laboratory and bioinformatics) workflow that is able to identify, associate and track AMR genes in bacteria. We demonstrate the efficiency and reliability of the method by comparing 50 faecal microbiomes from pig farms with high-antibiotic use (conventional farms), and 50 faecal microbiomes from pig farms with low-antibiotic use (organic farms). Our method provides a novel approach to resistance gene tracking, that also leads to the generation of high quality metagenomic assembled genomes that includes genes on mobile genetic elements, such as plasmids, that would not otherwise be included in these assembled genomes.

Published

2022

6. Characterisation of canine KCNIP4: A novel gene for cerebellar ataxia identified by whole-genome sequencing two affected Norwegian Buhund dogs

Author

Cathryn S. Mellersh, Lajos Kalmar, Kaspar Matiasek, Ellen Schofield, Sally L. Ricketts, Christopher A. Jenkins, Hannes Lohi, Kaisa Kyöstilä, Luisa De Risio, Lorenzo Mari, Department of Medical and Clinical Genetics, Veterinary Biosciences, Medicum, Helsinki One Health (HOH), Haartman Institute (-2014), Veterinary Genetics, Jenkins, Christopher A. [0000-0001-9082-4270], Kalmar, Lajos [0000-0003-3691-8350], Matiasek, Kaspar [0000-0001-5021-3280], Mari, Lorenzo [0000-0002-5732-1011], Lohi, Hannes [0000-0003-1087-5532], Schofield, Ellen C. [0000-0003-0648-1418], De Risio, Luisa [0000-0001-9005-4165], Ricketts, Sally L. [0000-0002-5644-7958], Apollo - University of Cambridge Repository, Jenkins, Christopher A [0000-0001-9082-4270], Schofield, Ellen C [0000-0003-0648-1418], and Ricketts, Sally L [0000-0002-5644-7958]

Subjects

Cancer Research, Cerebellum, European People, QH426-470, 413 Veterinary science, 0302 clinical medicine, Ethnicities, Dog Diseases, KCNJ10, Genetics (clinical), Genetics, Mammals, Cerebral Cortex, 0303 health sciences, Movement Disorders, Mammalian Genomics, biology, Pets and Companion Animals, 1184 Genetics, developmental biology, physiology, Eukaryota, Brain, Neurodegenerative Diseases, Kv Channel-Interacting Proteins, Genomics, medicine.anatomical_structure, Neurology, Vertebrates, Spinocerebellar ataxia, medicine.symptom, Anatomy, SPONGY DEGENERATION, POTASSIUM CHANNELS, Research Article, Ataxia, Cerebellar Ataxia, Norwegian People, Animal Types, Single-nucleotide polymorphism, Polymorphism, Single Nucleotide, CLONING, 03 medical and health sciences, Dogs, medicine, Animals, Molecular Biology, Gene, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Whole genome sequencing, Medicine and health sciences, SPINOCEREBELLAR ATAXIA, Cerebellar ataxia, Whole Genome Sequencing, Biology and life sciences, MUTATIONS, Organisms, Computational Biology, medicine.disease, Genome Analysis, Animal Genomics, Amniotes, Mutation, biology.protein, Population Groupings, People and places, Zoology, 030217 neurology & neurosurgery

Abstract

A form of hereditary cerebellar ataxia has recently been described in the Norwegian Buhund dog breed. This study aimed to identify the genetic cause of the disease. Whole-genome sequencing of two Norwegian Buhund siblings diagnosed with progressive cerebellar ataxia was carried out, and sequences compared with 405 whole genome sequences of dogs of other breeds to filter benign common variants. Nine variants predicted to be deleterious segregated among the genomes in concordance with an autosomal recessive mode of inheritance, only one of which segregated within the breed when genotyped in additional Norwegian Buhunds. In total this variant was assessed in 802 whole genome sequences, and genotyped in an additional 505 unaffected dogs (including 146 Buhunds), and only four affected Norwegian Buhunds were homozygous for the variant. The variant identified, a T to C single nucleotide polymorphism (SNP) (NC_006585.3:g.88890674T>C), is predicted to cause a tryptophan to arginine substitution in a highly conserved region of the potassium voltage-gated channel interacting protein KCNIP4. This gene has not been implicated previously in hereditary ataxia in any species. Evaluation of KCNIP4 protein expression through western blot and immunohistochemical analysis using cerebellum tissue of affected and control dogs demonstrated that the mutation causes a dramatic reduction of KCNIP4 protein expression. The expression of alternative KCNIP4 transcripts within the canine cerebellum, and regional differences in KCNIP4 protein expression, were characterised through RT-PCR and immunohistochemistry respectively. The voltage-gated potassium channel protein KCND3 has previously been implicated in spinocerebellar ataxia, and our findings suggest that the Kv4 channel complex KCNIP accessory subunits also have an essential role in voltage-gated potassium channel function in the cerebellum and should be investigated as potential candidate genes for cerebellar ataxia in future studies in other species., Author summary Hereditary ataxias, which are a group of disorders characterised by incoordination of movement, are typically incurable and there are often no disease-modifying treatments available. Canine hereditary ataxias are a notable group of movement disorders in dogs, and represent well characterised naturally occurring disease models of ataxia that can help improve our understanding of the underlying biology of the disorder in both dogs and humans. We used the whole genome sequences of two affected siblings to investigate the genetic cause of a slowly progressive form of hereditary ataxia in the Norwegian Buhund dog breed, and identified a single base change within the KCNIP4 gene. We have characterised the expression of KCNIP4 in the dog, and investigated the effect of the identified mutation. This gene has not previously been implicated in inherited ataxia in any species, and our findings suggest that this and related genes represent potential candidates for ataxia in future studies in other species. Our findings will allow dog breeders to avoid producing affected dogs, reduce the disease allele frequency, and eventually eliminate the disease from the breed, through the use of a DNA test.

Published

2020