Your search keyword '"reference sequences"' showing total 27 results

1. The Ribosomal Operon Database: A Full‐Length rDNA Operon Database Derived From Genome Assemblies.

Author

Krabberød, Anders K., Stokke, Embla, Thoen, Ella, Skrede, Inger, and Kauserud, Håvard

Subjects

*RIBOSOMAL DNA, *HYPERVARIABLE regions, *GENETIC markers, *POLYMERASE chain reaction, *CORN, *OPERONS

Abstract

ABSTRACT Current rDNA reference sequence databases are tailored towards shorter DNA markers, such as parts of the 16/18S marker or the internally transcribed spacer (ITS) region. However, due to advances in long‐read DNA sequencing technologies, longer stretches of the rDNA operon are increasingly used in environmental sequencing studies to increase the phylogenetic resolution. There is, therefore, a growing need for longer rDNA reference sequences. Here, we present the ribosomal operon database (ROD), which includes eukaryotic full‐length rDNA operons fished from publicly available genome assemblies. Full‐length operons were detected in 34.1% of the 34,701 examined eukaryotic genome assemblies from NCBI. In most cases (53.1%), more than one operon variant was detected, which can be due to intragenomic operon copy variability, allelic variation in non‐haploid genomes, or technical errors from the sequencing and assembly process. The highest copy number found was 5947 in Zea mays. In total, 453,697 unique operons were detected, with 69,480 operon variant clusters remaining after intragenomic clustering at 99% sequence identity. The operon length varied extensively across eukaryotes, ranging from 4136 to 16,463 bp, which will lead to considerable polymerase chain reaction (PCR) bias during amplification of the entire operon. Clustering the full‐length operons revealed that the different parts (i.e., 18S, 28S, and the hypervariable regions V4 and V9 of 18S) provide divergent taxonomic resolution, with 18S, the V4 and V9 regions being the most conserved. The ROD will be updated regularly to provide an increasing number of full‐length rDNA operons to the scientific community. [ABSTRACT FROM AUTHOR]

Published

2024

2. Chemical Links Between Redox Conditions and Estimated Community Proteomes from 16S rRNA and Reference Protein Sequences.

Author

Dick, Jeffrey M. and Tan, Jingqiang

Subjects

*AMINO acid sequence, *COMMUNITIES, *OXIDATION-reduction reaction, *RIBOSOMAL RNA, *GAS wells, *MICROBIAL enzymes

Abstract

Environmental influences on community structure are often assessed through multivariate analyses in order to relate microbial abundances to separately measured physicochemical variables. However, genes and proteins are themselves chemical entities; in combination with genome databases, differences in microbial abundances directly encode for chemical variability. We predicted that the carbon oxidation state of estimated community proteomes, obtained by combining taxonomic abundances from published 16S rRNA gene sequencing datasets with reference microbial proteomes from the NCBI Reference Sequence (RefSeq) database, would reflect environmental oxidation-reduction conditions. Analysis of multiple datasets confirms the geobiochemical predictions for environmental redox gradients in hydrothermal systems, stratified lakes and marine environments, and shale gas wells. The geobiochemical signal is largest for the steep redox gradients associated with hydrothermal systems and between injected water and produced fluids from shale gas wells, demonstrating that microbial community composition can be a chemical proxy for environmental redox gradients. Although estimates of oxidation state from 16S amplicon and metagenomic sequences are correlated, the 16S-based estimates show stronger associations with redox gradients in some environments. [ABSTRACT FROM AUTHOR]

Published

2023

3. Environmental DNA barcoding reveals general biodiversity patterns in the large tropical rift Lake Albert.

Author

Bálint M, Tumusiime J, Nakintu J, Baranski D, Schardt L, Romahn J, Dusabe MC, Tolo CU, Kagoro GR, Ssenkuba F, Junginger A, and Albrecht C

Abstract

Lake Albert, Africa's seventh-largest lake and a biodiversity hotspot, faces significant environmental challenges, including unregulated anthropogenic pressure and a lack of comprehensive biological studies. To address the scarcity of biodiversity data, we utilized environmental DNA (eDNA) metabarcoding to assess the lake's eukaryotic and metazoan communities. Surface water samples were collected at three distinct locations: close to the southern inflow of the Semliki River, the central part of the lake, and close to the northern inflow of the Victoria Nile and outflow of the Albert Nile. We aimed to study ecological patterns across the lake, focusing on sequence variant richness and community composition, testing for differences among locations and between shoreline and pelagic zones. Consistent with previous morphology-based observations, our results revealed differences in community composition among the three sites, with cyclopoid copepods dominating the communities. Distance from shore was a significant factor influencing community composition, confirming expectations about the effects of nutrient and oxygen availability gradients. However, the lack of comprehensive reference sequence data limited accurate taxonomic assignments. Despite these limitations, our study demonstrates that eDNA metabarcoding is highly useful for assessing biodiversity in underexplored tropical freshwater ecosystems. We advocate for urgent efforts to generate reference sequences from tropical regions to enhance the utility of eDNA for biodiversity monitoring and conservation. Our findings underscore the potential of eDNA in providing insights into ecological patterns of entire communities and emphasize the need for comprehensive studies addressing the full taxonomic spectrum in tropical freshwater ecosystems., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2024

4. Towards consolidation of Gymnopilus taxonomy: the case of G. stabilis, G. sapineus, and G. penetrans.

Author

Holec, Jan, Borovička, Jan, Peintner, Ursula, and Kolařík, Miroslav

Abstract

Gymnopilus stabilis (Fungi, Agaricales), a very rare species of unclear identity described from Europe, was revised using morphological data and phylogenetic affiliations derived from ITS rDNA sequences. Collections from the Czech Republic, Germany, and Russia plus reference vouchers of related or similar species were studied. Gymnopilus stabilis sequences form a moderately supported but distinct clade in a lineage containing G. swaticus and a Gymnopilus collection of unknown identity from the USA. The G. stabilis lineage is sister to the G. sapineus clade, a group of species with low divergence in ITS rDNA region. This whole, well-supported group is clearly distinct from the lineage of G. penetrans, a species with which G. stabilis has sometimes been confused. Morphological characters of a recent, well-documented Czech collection of G. stabilis are described in detail and compared with the German and Russian ones. A literature review confirms that the taxonomic concept of G. stabilis has not substantially changed over time. In order to consolidate the taxonomy and nomenclature of this enigmatic species, lectotype and epitype are designated here for G. stabilis, and key diagnostic characters are highlighted. The taxonomic concepts of G. sapineus and G. penetrans are further specified based on well-documented, sequenced reference collections. Moreover, the position of G. hybridus is briefly discussed. The identification of several GenBank entries of G. stabilis, G. sapineus, and G. penetrans is revised in order to fix species concepts in this fascinating group of wood-decaying fungi. [ABSTRACT FROM AUTHOR]

Published

2022

5. Reference datasets of tufA and UPA markers to identify algae in metabarcoding surveys

Author

Vanessa Rossetto Marcelino and Heroen Verbruggen

Subjects

Metabarcoding, Ostreobium, tufA, RDP classifier, UPA, Reference sequences, Computer applications to medicine. Medical informatics, R858-859.7, Science (General), Q1-390

Abstract

The data presented here are related to the research article “Multi-marker metabarcoding of coral skeletons reveals a rich microbiome and diverse evolutionary origins of endolithic algae” (Marcelino and Verbruggen, 2016) [1]. Here we provide reference datasets of the elongation factor Tu (tufA) and the Universal Plastid Amplicon (UPA) markers in a format that is ready-to-use in the QIIME pipeline (Caporaso et al., 2010) [2]. In addition to sequences previously available in GenBank, we included newly discovered endolithic algae lineages using both amplicon sequencing (Marcelino and Verbruggen, 2016) [1] and chloroplast genome data (Marcelino et al., 2016; Verbruggen et al., in press) [3,4]. We also provide a script to convert GenBank flatfiles into reference datasets that can be used with other markers. The tufA and UPA reference datasets are made publicly available here to facilitate biodiversity assessments of microalgal communities.

Published

2017

6. VariantValidator: Accurate validation, mapping, and formatting of sequence variation descriptions.

Author

Freeman, Peter J., Hart, Reece K., Gretton, Liam J., Brookes, Anthony J., and Dalgleish, Raymond

Abstract

The Human Genome Variation Society (HGVS) variant nomenclature is widely used to describe sequence variants in scientific publications, clinical reports, and databases. However, the HGVS recommendations are complex and this often results in inaccurate variant descriptions being reported. The open-source hgvs Python package () provides a programmatic interface for parsing, manipulating, formatting, and validating of variants according to the HGVS recommendations, but does not provide a user-friendly Web interface. We have developed a Web-based variant validation tool, VariantValidator (), which utilizes the hgvs Python package and provides additional functionality to assist users who wish to accurately describe and report sequence-level variations that are compliant with the HGVS recommendations. VariantValidator was designed to ensure that users are guided through the intricacies of the HGVS nomenclature, for example, if the user makes a mistake, VariantValidator automatically corrects the mistake if it can, or provides helpful guidance if it cannot. In addition, VariantValidator has the facility to interconvert genomic variant descriptions in HGVS and Variant Call Format with a degree of accuracy that surpasses most competing solutions. [ABSTRACT FROM AUTHOR]

Published

2018

7. Bioinformatics approaches for viral metagenomics in plants using short RNAs : model case of study and application to a Cicer arietinum population.

Author

Walter ePirovano, Marten eboetzer, Laura eMiozzi, and Vitantonio ePantaleo

Subjects

Plant Viruses, bioinformatics, chickpea, de novo assembly, Reference sequences, ancient varieties, Microbiology, QR1-502

Abstract

Over the past years deep sequencing experiments have opened novel doors to reconstruct viral populations in a high-throughput and cost-effective manner. Currently a substantial number of studies have been performed which employ Next Generation Sequencing (NGS) techniques to either analyze known viruses by means of a reference-guided approach or to discover novel viruses using a de novo-based strategy. Taking advantage of the well-known Cymbidium ringspot virus we have carried out a comparison of different bioinformatics tools to reconstruct the viral genome based on 21-27 nt short (s)RNA sequencing with the aim to identify the most efficient pipeline. The same approach was applied to a population of plants constituting an ancient variety of Cicer arietinum with red seeds. Among the discovered viruses, we describe the presence of a Tobamovirus referring to the Tomato mottle mosaic virus (NC_022230), which was not yet observed on C. arietinum nor revealed in Europe and a virod referring to Hop stunt viroid (NC_001351.1) never reported in chickpea. Notably, a reference sequence guided approach appeared the most efficient in such kind of investigation. Instead, the de novo assembly reached a non-appreciable coverage although the most prominent viral species could still be identified. Advantages and limitations of viral metagenomics analysis using sRNAs are discussed.

Published

2015

8. RefSelect: a reference sequence selection algorithm for planted (l, d) motif search.

Author

Qiang Yu, Hongwei Huo, Ruixing Zhao, Dazheng Feng, Scott Vitter, Jeffrey, and Jun Huan

Subjects

*COMPUTATIONAL biology, *NUCLEOTIDE sequencing, *GENE expression, *GIBBS sampling, *ALGORITHMS

Abstract

Background: The planted (l, d) motif search (PMS) is an important yet challenging problem in computational biology. Pattern-driven PMS algorithms usually use k out of t input sequences as reference sequences to generate candidate motifs, and they can find all the (l, d) motifs in the input sequences. However, most of them simply take the first k sequences in the input as reference sequences without elaborate selection processes, and thus they may exhibit sharp fluctuations in running time, especially for large alphabets. Results: In this paper, we build the reference sequence selection problem and propose a method named RefSelect to quickly solve it by evaluating the number of candidate motifs for the reference sequences. RefSelect can bring a practical time improvement of the state-of-the-art pattern-driven PMS algorithms. Experimental results show that RefSelect (1) makes the tested algorithms solve the PMS problem steadily in an efficient way, (2) particularly, makes them achieve a speedup of up to about 100× on the protein data, and (3) is also suitable for large data sets which contain hundreds or more sequences. Conclusions: The proposed algorithm RefSelect can be used to solve the problem that many pattern-driven PMS algorithms present execution time instability. RefSelect requires a small amount of storage space and is capable of selecting reference sequences efficiently and effectively. Also, the parallel version of RefSelect is provided for handling large data sets. [ABSTRACT FROM AUTHOR]

Published

2016

9. Hepatitis B virus genotype A: design of reference sequences for sub-genotypes.

Author

Cai, Qun, Zhu, Huilan, Zhang, Yafei, Li, Xu, and Zhang, Zhenhua

Abstract

Genotype A of hepatitis B virus (HBV/A) is widespread and is currently divided into six sub-genotypes. Suitable reference sequences for different sub-genotypes can facilitate research on HBV/A. However, the current reference sequences for this virus are insufficient. In the present work, we retrieved 442 full-length HBV/A genomic sequences from the GenBank database and classified them into sub-genotypes by phylogenetic analysis. By the maximum likelihood method using the MEGA6.0 software, we established the reference sequences for different HBV/A sub-genotypes. Our analyses demonstrated that these reference sequences clustered phylogenetically with known strains, indicating that the reference sequences we established indeed belonged to the right sub-genotypes. HBV/A subtype sequences were selected by geographic origins and grouped as sub-genotypes including A1-South Africa, A2-Europe, A3-Cameroon, and A5-Haiti. Reference sequences of sub-genotypes A1, A2, A3, and A5 were constructed and deposited into GenBank (KP234050-KP234053). By applying phylogenetic analyses, we further determined the time to most recent common ancestor of HBV/A lineages. In conclusion, these newly established reference sequences can provide suitable reference standards for studies on the molecular biology and virology of HBV genotype A. [ABSTRACT FROM AUTHOR]

Published

2016

10. Bioinformatics approaches for viral metagenomics in plants using short RNAs: model case of study and application to a Cicer arietinum population.

Author

Pirovano, Walter, Miozzi, Laura, Boetzer, Marten, and Pantaleo, Vitantonio

Subjects

BIOINFORMATICS, METAGENOMICS, MICROBIAL genomics, CHICKPEA research, PLANT viruses

Abstract

Over the past years deep sequencing experiments have opened novel doors to reconstruct viral populations in a high-throughput and cost-effective manner. Currently a substantial number of studies have been performed which employ next generation sequencing techniques to either analyze known viruses by means of a reference-guided approach or to discover novel viruses using a de novo-based strategy.Taking advantage of the well-known Cymbidium ringspot virus we have carried out a comparison of different bioinformatics tools to reconstruct the viral genome based on 21-27 nt short (s)RNA sequencing with the aim to identify the most efficient pipeline. The same approach was applied to a population of plants constituting an ancient variety of Cicer arietinum with red seeds. Among the discovered viruses, we describe the presence of a Tobamovirus referring to the Tomato mottle mosaic virus (NC_022230), whichwas not yet observed on C. arietinum nor revealed in Europe and a viroid referring to Hop stunt viroid (NC_001351.1) never reported in chickpea. Notably, a reference sequence guided approach appeared the most efficient in such kind of investigation. Instead, the de novo assembly reached a non-appreciable coverage although the most prominent viral species could still be identified. Advantages and limitations of viral metagenomics analysis using sRNAs are discussed. [ABSTRACT FROM AUTHOR]

Published

2015

11. A Chirp-Based Frequency Synchronization Approach for Flat Fading Channels

Author

Gerhard Fettweis, Atul Kumar, Marwa Chafii, Ana Belen Martinez, Equipes Traitement de l'Information et Systèmes (ETIS - UMR 8051), Ecole Nationale Supérieure de l'Electronique et de ses Applications (ENSEA)-Centre National de la Recherche Scientifique (CNRS)-CY Cergy Paris Université (CY), and ASIA Chair of Excellence Grant

Subjects

Sequence, Frequency offset estimation, Computer science, 05 social sciences, 050801 communication & media studies, dual-chirp, Upper and lower bounds, up-down-chirp, Synchronization (alternating current), reference sequences, [SPI]Engineering Sciences [physics], 0508 media and communications, Sampling (signal processing), 0502 economics and business, Electronic engineering, Chirp, 050211 marketing, Fading, Cramér–Rao bound, Electrical efficiency, synchronization, CRLB

Abstract

International audience; In different new and emerging technologies, where high frequency offsets (FOs) are expected due to the low-cost nature of the local oscillators, and low sampling rates are chosen for the sake of power efficiency, accurate FO estimation becomes a challenging task. This work proposes a frequency synchronization approach based on a dual-chirp training sequence. Its performance is evaluated by means of simulations and validated with the derived Cramer-Rao lower bound. It is shown that the proposed method achieves near-optimum performance with lower complexity than the state-of-the-art approach.

Published

2020

12. Analysis of genomic-length HBV sequences to determine genotype and subgenotype reference sequences

Author

Philippa C Matthews, Margaret Littlejohn, Peter Revill, Anna L McNaughton, and M. Azim Ansari

Subjects

0301 basic medicine, Hepatitis B virus, Genotype, 030106 microbiology, Computational biology, Genome, Viral, Biology, medicine.disease_cause, 03 medical and health sciences, reference sequences, 0302 clinical medicine, Phylogenetics, Virology, Databases, Genetic, Hbv genotype, medicine, HBV, Humans, Clade, Phylogeny, 030304 developmental biology, 0303 health sciences, Phylogenetic tree, Base Sequence, whole genome, Animal, DNA virus, Sequence Analysis, DNA, Hepatitis B, phylogenetics, 030104 developmental biology, Small DNA Viruses, DNA, Viral, 030211 gastroenterology & hepatology, Research Article

Abstract

Hepatitis B virus (HBV) is a diverse, partially double-stranded DNA virus, with 9 genotypes (A-I), and a putative 10th genotype (J), thus far characterised. Given the broadening interest in HBV sequencing, there is an increasing requirement for a consistent, unified approach to HBV genotype and subgenotype classification. We set out to generate an updated resource of reference sequences using the diversity of all genomic-length HBV sequences available in public databases. We collated and aligned genomic-length HBV sequences from public databases and used maximum-likelihood phylogenetic analysis to identify genotype clusters. Within each genotype, we examined the phylogenetic support for currently defined subgenotypes, as well as identifying well-supported clades and deriving reference sequences for them. An alignment of these reference sequences and maximum-likelihood phylogenetic trees of the sequences are provided to simplify classification. Based on the phylogenies generated, we present a comprehensive set of HBV reference sequences at the genotype and subgenotype level.

Published

2020

13. DNA analysis of archaeological rabbit remains from the American Southwest

Author

Yang, Dongya Y., Woiderski, Joshua R., and Driver, Jonathan C.

Subjects

*FOSSIL DNA, *ARCHAEOLOGY, *DNA fingerprinting, *NUCLEOTIDE sequence

Abstract

Abstract: Ancient DNA analysis was carried out on 20 archaeological rabbit remains from an early Pueblo II period site in Colorado (circa 1000 A.D.) to explore the possibility of obtaining accurate rabbit genus and species identifications. The presence of abundant rabbit remains at archaeological sites in the American Southwest indicates the importance of rabbit species in the subsistence economy and ritual activities of early aboriginal populations. The study of these remains is hindered by the difficulty of accurate identification due to the fragmentary nature of the bones and the lack of genus- and species-specific morphological features. A short cytochrome b gene fragment was amplified and sequenced to produce a genetic profile for each bone sample. At the genus level, the DNA identifications were consistent with those based on the analysis of mandible morphology for the majority of specimens. When compared to species-specific reference DNA sequences, Lepus americanus and Lepus californicus samples were easily identified. Identification of an unexpected L. americanus (snowshoe hare) from the remains provided new information concerning hunting ranges or exchange between groups in the region. Sylvilagus nuttallii and Sylvilagus audubonii, however, could not be confidently differentiated at this point due to the difficulty in obtaining accurate species-specific reference sequences. The inability to obtain such reference sequences can be a serious problem for DNA species identification of non-domestic animals that lack population-level genetic data and have few sequences available in GenBank. The lack of the DNA data increases the possibility that inappropriate reference sequences could be applied, resulting in false species identification even when authentic DNA is retrieved and amplified from ancient remains. [Copyright &y& Elsevier]

Published

2005

14. Computer-aided visualization and analysis system for sequence evaluation

Author

Chee, Mark [Palo Alto, CA]

Published

2001

15. Computer-aided visualization and analysis system for sequence evaluation

Author

Chee, Mark [Palo Alto, CA]

Published

1999

16. DNA sequence similarity recognition by hybridization to short oligomers

Author

Milosavljevic, Aleksandar [Westmont, IL]

Published

1999

17. Computer-aided visualization and analysis system for sequence evaluation

Author

Chee, Mark [3199 Waverly St., Palo Alto, CA 94306]

Published

1998

18. VariantValidator:Accurate validation, mapping, and formatting of sequence variation descriptions

Author

Freeman, Peter J., Hart, Reece K., Gretton, Liam J., Brookes, Anthony J., and Dalgleish, Raymond

Subjects

validation, sequence variants, Informatics, variant call format, sequence variation, HGVS variant nomenclature, Chromosome Mapping, Computational Biology, Genetic Variation, Reproducibility of Results, Sequence Analysis, DNA, Exons, Computational Biology/methods, Web Browser, Introns, reference sequences, User-Computer Interface, Sequence Analysis, DNA/methods, VCF, Databases, Genetic, Humans, Chromosome Mapping/methods, Software

Abstract

The Human Genome Variation Society (HGVS) variant nomenclature is widely used to describe sequence variants in scientific publications, clinical reports, and databases. However, the HGVS recommendations are complex and this often results in inaccurate variant descriptions being reported. The open‐source hgvs Python package (https://github.com/biocommons/hgvs) provides a programmatic interface for parsing, manipulating, formatting, and validating of variants according to the HGVS recommendations, but does not provide a user‐friendly Web interface. We have developed a Web‐based variant validation tool, VariantValidator (https://variantvalidator.org/), which utilizes the hgvs Python package and provides additional functionality to assist users who wish to accurately describe and report sequence‐level variations that are compliant with the HGVS recommendations. VariantValidator was designed to ensure that users are guided through the intricacies of the HGVS nomenclature, for example, if the user makes a mistake, VariantValidator automatically corrects the mistake if it can, or provides helpful guidance if it cannot. In addition, VariantValidator has the facility to interconvert genomic variant descriptions in HGVS and Variant Call Format with a degree of accuracy that surpasses most competing solutions.

Published

2018

19. Sequence analysis of the Pre-S gene in chronic asymptomatic HBV carriers with low-level HBsAg

Author

Meng Zhang, Changgui Sun, Tong Wang, Xujian Xu, Jun Cheng, Yuzhu Dai, and Dawei Cui

Subjects

0301 basic medicine, Serotype, Male, HBsAg, co-mutations, Gene mutation, medicine.disease_cause, Grant funding, 0302 clinical medicine, Viral Envelope Proteins, Genotype, HBV, Pre-S gene, education.field_of_study, virus diseases, General Medicine, Articles, Hepatitis B, Middle Aged, Reference Standards, 030211 gastroenterology & hepatology, Female, medicine.symptom, Corrigendum, Adult, medicine.medical_specialty, Population, Genome, Viral, Asymptomatic, 03 medical and health sciences, reference sequences, Hepatitis B, Chronic, asymptomatic HBV carriers, Genetics, medicine, Humans, education, Gene, Aged, Hepatitis B virus, Hepatitis B Surface Antigens, business.industry, Regret, medicine.disease, Virology, digestive system diseases, 030104 developmental biology, Family medicine, Mutation, low-level HBsAg, business

Abstract

In a hepatitis B virus (HBV)-infected population, persistently low expression levels of serum HBV serum antigen (HBsAg) are present, particularly in chronic asymptomatic HBV carriers (ASCs). The present study sequenced the HBV Pre-S gene, and aimed to elucidate its features in ASCs with low HBsAg expression compared with in the established HBV Pre-S reference gene sequences from ASCs with high HBsAg expression. A total of 1,308 ASCs were grouped according to HBsAg serum levels (cut-off value, 10 IU/ml), and clinical characteristics were analyzed in detail. The HBV Pre-S gene was sequenced in 276 ASCs with low-level HBsAg; in addition, 100 of the remaining 1,032 ASCs with high-level HBsAg were randomly selected for HBV Pre-S gene sequencing on the basis of age matching with the low-level HBsAg group. Comparative analysis of the gene sequences from these groups was subsequently conducted. The major clinical features of the population with low-level HBsAg were as follows: Most were ASCs with chronic HBV infection; 97.1% were HBsAg/anti-HBe/anti-HBc-positive; 82.54% carried the B genotype; and 84.13% displayed the adw serotype. The results indicated that there were novel and meaningful mutations, including co-mutations, at numerous loci and sites in the Pre-S gene, as well as deletion mutations in the Pre-S2 gene. These mutations in the Pre-S1 and Pre-S2 gene frag ments accounted for 65.38% (68/104) of the 104 B genotype cases in the low-level HBsAg group and 90.91% (20/22) of the 22 C genotype cases in the low-level HBsAg group, respectively. In conclusion, Pre-S gene mutations may be associated with HBV replication defects, which may be the cause of the observed low expression levels of HBsAg.

Published

2019

20. RefSelect: a reference sequence selection algorithm for planted (l, d) motif search

Author

Jun Huan, Dazheng Feng, Ruixing Zhao, Hongwei Huo, Jeffrey Scott Vitter, and Qiang Yu

Subjects

0301 basic medicine, Computer science, Pattern-driven, Amino Acid Motifs, 0206 medical engineering, 02 engineering and technology, Reference sequences, Biochemistry, 03 medical and health sciences, Protein Domains, Sequence Analysis, Protein, Structural Biology, Molecular Biology, Selection algorithm, Research, Applied Mathematics, Computational Biology, Proteins, Computer Science Applications, 030104 developmental biology, Planted motif search, Planted (l, d) motif search, Motif (music), DNA microarray, Algorithm, Algorithms, Software, 020602 bioinformatics, Reference genome

Abstract

Background The planted (l, d) motif search (PMS) is an important yet challenging problem in computational biology. Pattern-driven PMS algorithms usually use k out of t input sequences as reference sequences to generate candidate motifs, and they can find all the (l, d) motifs in the input sequences. However, most of them simply take the first k sequences in the input as reference sequences without elaborate selection processes, and thus they may exhibit sharp fluctuations in running time, especially for large alphabets. Results In this paper, we build the reference sequence selection problem and propose a method named RefSelect to quickly solve it by evaluating the number of candidate motifs for the reference sequences. RefSelect can bring a practical time improvement of the state-of-the-art pattern-driven PMS algorithms. Experimental results show that RefSelect (1) makes the tested algorithms solve the PMS problem steadily in an efficient way, (2) particularly, makes them achieve a speedup of up to about 100× on the protein data, and (3) is also suitable for large data sets which contain hundreds or more sequences. Conclusions The proposed algorithm RefSelect can be used to solve the problem that many pattern-driven PMS algorithms present execution time instability. RefSelect requires a small amount of storage space and is capable of selecting reference sequences efficiently and effectively. Also, the parallel version of RefSelect is provided for handling large data sets.

Published

2016

21. Analysis of genomic-length HBV sequences to determine genotype and subgenotype reference sequences.

Author

McNaughton AL, Revill PA, Littlejohn M, Matthews PC, and Ansari MA

Subjects

DNA, Viral genetics, Databases, Genetic, Humans, Phylogeny, Sequence Analysis, DNA, Base Sequence genetics, Genome, Viral, Genotype, Hepatitis B virology, Hepatitis B virus genetics

Abstract

Hepatitis B virus (HBV) is a diverse, partially double-stranded DNA virus, with 9 genotypes (A-I), and a putative 10th genotype (J), characterized thus far. Given the broadening interest in HBV sequencing, there is an increasing requirement for a consistent, unified approach to HBV genotype and subgenotype classification. We set out to generate an updated resource of reference sequences using the diversity of all genomic-length HBV sequences available in public databases. We collated and aligned genomic-length HBV sequences from public databases and used maximum-likelihood phylogenetic analysis to identify genotype clusters. Within each genotype, we examined the phylogenetic support for currently defined subgenotypes, as well as identifying well-supported clades and deriving reference sequences for them. Based on the phylogenies generated, we present a comprehensive set of HBV reference sequences at the genotype and subgenotype level. All of the generated data, including the alignments, phylogenies and chosen reference sequences, are available online (https://doi.org/10.6084/m9.figshare.8851946) as a simple open-access resource.

Published

2020

22. Assignment of Reference 5'-end 16S rDNA Sequences and Species-Specific Sequence Polymorphisms Improves Species Identification of Nocardia

Author

Lin Cai, Vitali Sintchenko, Ok Cha Lee, Zhongsheng Tong, Xiaoyou Chen, Fanrong Kong, Sharon C.-A. Chen, Catriona Halliday, and Tania C. Sorrell

Subjects

Genetics, General Immunology and Microbiology, biology, Nocardia brasiliensis, Sequence analysis, species identification, Nucleic acid sequence, Nocardia, Ribosomal RNA, bacterial infections and mycoses, biology.organism_classification, Article, reference sequences, 16S rDNA, GenBank, Nocardia spp, sequence polymorphisms, Nocardia farcinica, Reference genome

Abstract

16S rDNA sequence analysis is the most accurate method for definitive species identification of nocardiae. However, conflicting results can be found due to sequence errors in gene databases. This study tested the feasibility of species identification of Nocardia by partial (5’-end 606-bp) 16S rDNA sequencing, based on sequence comparison with “reference” sequences of well-annotated strains. This new approach was evaluated using 96 American Type Culture Collection (n=6), and clinical (n=90) Nocardia isolates. Nucleotide sequence-based polymorphisms within species were indicative of “sequence types” for that species. Sequences were compared with those in the GenBank, Bioinformatics Bacteria Identification and Ribosomal Database Project databases. Compared with the reference sequence set, all 96 isolates were correctly identified using the criterion of ≥99% sequence similarity. Seventy-eight (81.3%) were speciated by database comparison; alignment with reference sequences resolved the identity of 14 (15%) isolates whose sequences yielded 100% similarity to sequences in GenBank under >1 species designation. Of 90 clinical isolates, the commonest species was Nocardia nova (33.3%) followed by Nocardia cyriacigeorgica (26.7%). Recently-described or uncommon species included Nocardia veterana (4.4%), Nocarida bejingensis (2.2%) and, Nocardia abscessus and Nocardia arthriditis (each n=1). Nocardia asteroides sensu stricto was rare (n=1). There were nine sequence types of N. nova, three of Nocardia brasiliensis with two each of N. cyriacigeorgica and Nocardia farcinica. Thirteen novel sequences were identified. Alignment of sequences with reference sequences facilitated species identification of Nocardia and allowed delineation of sequence types within species, suggesting that such a barcoding approach can be clinically useful for identification of bacteria.

Published

2009

23. Bioinformatics approaches for viral metagenomics in plants using short RNAs: model case of study and application to a Cicer arietinum population

Author

Vitantonio Pantaleo, Marten Boetzer, Laura Miozzi, and Walter Pirovano

Subjects

Microbiology (medical), Viral metagenomics, viruses, Population, lcsh:QR1-502, Sequence assembly, Biology, de novo assembly, Bioinformatics, Microbiology, Deep sequencing, DNA sequencing, lcsh:Microbiology, reference sequences, Plant virus, chickpea, Original Research Article, education, Genetics, education.field_of_study, ancient varieties, plant viruses, bioinformatics, biology.organism_classification, Hop stunt viroid, Reference genome

Abstract

Over the past years deep sequencing experiments have opened novel doors to ?reconstruct viral populations in a high-throughput and cost-effective manner. Currently a ?substantial number of studies have been performed which employ Next Generation Sequencing (NGS) techniques to either analyse known viruses by means of a reference-guided approach or to discover novel viruses using a de novo-based strategy. Taking ?advantage of the well-known Cymbidium ringspot virus we have carried out a comparison of ?different bioinformatics tools to reconstruct the viral genome based on 21-27 nt short (s)RNA sequencing with the aim to identify the most efficient pipeline. The same approach was ?applied to a population of plants constituting an ancient variety of Cicer arietinum with red ?seeds. Among the discovered viruses, we describe the presence of a Tobamovirus referring to the Tomato mottle mosaic virus (NC_022230), which was not yet observed on C. arietinum nor revealed in Europe and a viroid referring to Hop stunt viroid (NC_001351.1) never reported in chickpea. Notably, a reference sequence guided approach appeared the most efficient in such kind of investigation. Instead, the de novo assembly reached a non-appreciable coverage although the most prominent viral species could still be identified. ?Advantages and limitations of viral metagenomics analysis using sRNAs are discussed.

Published

2015

24. Twenty-Fourth Annual Meeting of the American Society for Bone and Mineral Research (Videotape)

Author

AMERICAN SOCIETY FOR BONE AND MINERAL RESEARCH WASHINGTON DC, Wolfsberg, Tyra, Hoffman, Eric, AMERICAN SOCIETY FOR BONE AND MINERAL RESEARCH WASHINGTON DC, Wolfsberg, Tyra, and Hoffman, Eric

Abstract

ELECTRONIC FILE CHARACTERISTICS: PHYSICAL DESCRIPTION: 1 VHS video; 1/2 in.; 01:23:00. SYSTEMS DETAIL NOTE

Published

2004

25. Reference datasets of tuf A and UPA markers to identify algae in metabarcoding surveys.

Author

Rossetto Marcelino V and Verbruggen H

Abstract

The data presented here are related to the research article "Multi-marker metabarcoding of coral skeletons reveals a rich microbiome and diverse evolutionary origins of endolithic algae" (Marcelino and Verbruggen, 2016) [1]. Here we provide reference datasets of the elongation factor Tu ( tuf A) and the Universal Plastid Amplicon (UPA) markers in a format that is ready-to-use in the QIIME pipeline (Caporaso et al., 2010) [2]. In addition to sequences previously available in GenBank, we included newly discovered endolithic algae lineages using both amplicon sequencing (Marcelino and Verbruggen, 2016) [1] and chloroplast genome data (Marcelino et al., 2016; Verbruggen et al., in press) [3], [4]. We also provide a script to convert GenBank flatfiles into reference datasets that can be used with other markers. The tuf A and UPA reference datasets are made publicly available here to facilitate biodiversity assessments of microalgal communities.

Published

2017

26. RefSelect: a reference sequence selection algorithm for planted (l, d) motif search.

Author

Yu Q, Huo H, Zhao R, Feng D, Vitter JS, and Huan J

Subjects

Algorithms, Amino Acid Motifs, Protein Domains, Proteins genetics, Sequence Analysis, Protein, Software, Computational Biology methods, Proteins chemistry

Abstract

Background: The planted (l, d) motif search (PMS) is an important yet challenging problem in computational biology. Pattern-driven PMS algorithms usually use k out of t input sequences as reference sequences to generate candidate motifs, and they can find all the (l, d) motifs in the input sequences. However, most of them simply take the first k sequences in the input as reference sequences without elaborate selection processes, and thus they may exhibit sharp fluctuations in running time, especially for large alphabets., Results: In this paper, we build the reference sequence selection problem and propose a method named RefSelect to quickly solve it by evaluating the number of candidate motifs for the reference sequences. RefSelect can bring a practical time improvement of the state-of-the-art pattern-driven PMS algorithms. Experimental results show that RefSelect (1) makes the tested algorithms solve the PMS problem steadily in an efficient way, (2) particularly, makes them achieve a speedup of up to about 100× on the protein data, and (3) is also suitable for large data sets which contain hundreds or more sequences., Conclusions: The proposed algorithm RefSelect can be used to solve the problem that many pattern-driven PMS algorithms present execution time instability. RefSelect requires a small amount of storage space and is capable of selecting reference sequences efficiently and effectively. Also, the parallel version of RefSelect is provided for handling large data sets.

Published

2016

27. Assignment of reference 5'-end 16S rDNA sequences and species-specific sequence polymorphisms improves species identification of Nocardia.

Author

Kong F, Chen SC, Chen X, Sintchenko V, Halliday C, Cai L, Tong Z, Lee OC, and Sorrell TC

Abstract

16S rDNA sequence analysis is the most accurate method for definitive species identification of nocardiae. However, conflicting results can be found due to sequence errors in gene databases. This study tested the feasibility of species identification of Nocardia by partial (5'-end 606-bp) 16S rDNA sequencing, based on sequence comparison with "reference" sequences of well-annotated strains. This new approach was evaluated using 96 American Type Culture Collection (n=6), and clinical (n=90) Nocardia isolates. Nucleotide sequence-based polymorphisms within species were indicative of "sequence types" for that species. Sequences were compared with those in the GenBank, Bioinformatics Bacteria Identification and Ribosomal Database Project databases. Compared with the reference sequence set, all 96 isolates were correctly identified using the criterion of ≥99% sequence similarity. Seventy-eight (81.3%) were speciated by database comparison; alignment with reference sequences resolved the identity of 14 (15%) isolates whose sequences yielded 100% similarity to sequences in GenBank under >1 species designation. Of 90 clinical isolates, the commonest species was Nocardia nova (33.3%) followed by Nocardia cyriacigeorgica (26.7%). Recently-described or uncommon species included Nocardia veterana (4.4%), Nocarida bejingensis (2.2%) and, Nocardia abscessus and Nocardia arthriditis (each n=1). Nocardia asteroides sensu stricto was rare (n=1). There were nine sequence types of N. nova, three of Nocardia brasiliensis with two each of N. cyriacigeorgica and Nocardia farcinica. Thirteen novel sequences were identified. Alignment of sequences with reference sequences facilitated species identification of Nocardia and allowed delineation of sequence types within species, suggesting that such a barcoding approach can be clinically useful for identification of bacteria.

Published

2009