Results 311 to 320 of about 4,241,168 (373)

Phylogenetic relationships of the carabid subfamily Harpalinae (Coleoptera) based on molecular sequence data

Molecular Phylogenetics and Evolution, 2002
The carabid subfamily Harpalinae contains most of the species of carabid beetles. This subfamily, with over 19,000 species, radiated in the Cretaceous to yield a large clade that is diverse in morphological form and ecological habit. While there are several morphological, cytological, and chemical characters that unite most harpalines, the placement of
K. Ober
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Estimation of Divergence Times from Molecular Sequence Data

2005
“A comparison of the structures of homologous proteins (i.e., proteins with the same kinds of biological activity or function) from different species is important, therefore, for two reasons. First, the similarities found give a measure of the minimum structure for biological function.
Jeffrey L. Thorne, Hirohisa Kishino
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Molecular sequence data resolves basal divergences within Simuliidae (Diptera)

Systematic Entomology, 2000
SummaryBasal divergences within Simuliidae are inferred from portions of the large nuclear ribosomal subunit (28S), elongation factor‐one alpha (EF‐1α), dopa decarboxylase (DDC), phosphoenolpyruvate carboxykinase (PEPCK), the small mitochondrial ribosomal subunit (12S) and subunit two of NADH dehydrogenase (ND2).
J. Moulton
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Molecular sequence accuracy: analysing imperfect data

Trends in Genetics, 1992
Molecular sequences are experimentally derived data that can be expected to contain errors as a result of diverse phenomena such as biological variation, molecular cloning artifacts, imperfect sequence determination, and data handling during contig assembly.
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Molecular Sequence Data-Bases and Their Uses

1992
Abstract Introduction There are many aspects of nucleic acid and amino acid sequences pertinent to protein engineering. For example, promoters and other types of non-coding regulatory DNA and RNA can be studied and manipulated with the purpose of designing transcription and translation units for maximal expression of natural or mutated ...
Mark S Boguski, James Ostell,, David J States   +2 more
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Molecular Epidemiology Database for Sequence Management and Data Mining

2017
A central database to aggregate sequence information from a range of epidemiological aspects including HTLV-1 pathogenesis, origin, and evolutionary dynamic would be useful to scientists and physicians worldwide. This Chapter describes two online tools for studies related to HTLV-1, the HTLV-1 Molecular Epidemiology Database and the HTLV-1 Subtyping ...
Thessika Hialla Almeida, Araújo, Filipe Ferreira, de Almeida Rego, Luiz Carlos Junior, Alcantara   +2 more
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Evolutionary analysis of molecular sequence data

2007
Abstract In the 140 years since Darwin’s Origin of Species was published, evolutionary ideas have formed an important part of the theoretical framework of biological research, but their practical consequences have been few for most of that period.
Hughes, A., Da Silva, J., Verra, F.
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Quantitation of Molecular Pathway Activation Using RNA Sequencing Data

2019
Intracellular molecular pathways (IMPs) control all major events in the living cell. IMPs are considered hotspots in biomedical sciences and thousands of IMPs have been discovered for humans and model organisms. Knowledge of IMPs activation is essential for understanding biological functions and differences between the biological objects at the ...
Nicolas, Borisov, Maxim, Sorokin, Andrew, Garazha, Anton, Buzdin   +3 more
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Short Introduction to Phylogenetic Analysis of Molecular Sequence Data

2018
Phylogeny is a model of the relationships between organisms, genes, protein, and other structures based on common ancestry. It is also used for epidemiological investigations and analysis of parallel evolution between host and parasite. Phylogenetic trees can be visualized as dendrograms or as radial trees.
Henrik Christensen, John Elmerdahl Olsen
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Data Encryption Using Zigzag and Sequences of Bio Molecular Information

Indian Journal of Public Health Research & Development, 2019
This paper proposed a new encryption algorithm for secure file communication. It consists of three stages of protection: DNA computation, generating keys, and encryption. The first stage, the file is converted to protein sequences. The second stage, an enormous number of random keys are generated of length ranged from (2^8 to 2^512 bits) using mRNA and
Rasha S. Ali, Saad N. Alsaad, Noor T. Mahmood   +2 more
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