Examples of 'molecular data' in a sentence
Meaning of "molecular data"
Molecular data refers to information or characteristics related to molecules, particularly in the context of scientific research or analysis. It encompasses data about the structure, composition, properties, and behavior of molecules, which can be used to study various biological, chemical, or physical phenomena
How to use "molecular data" in a sentence
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molecular data
Molecular data also support the relationship.
Morphological and molecular data confirm that.
The taxon was discovered based on molecular data.
Molecular data supports its monophyly.
This was subsequently confirmed by molecular data.
Molecular data support the monophyly of the subfamily.
This placement is supported by molecular data.
Molecular data later supported the genus concept.
But it is a monophyletic grouping that is supported by molecular data.
Molecular data were obtained through fragments generated by nine primers.
This information is based on molecular data.
The molecular data will be very useful in future environmental planning.
Analysis of morphological and molecular data.
Certain molecular data in a form which can be included in a potential register.
Unidentidae family is confirmed based on morphological and molecular data.
See also
Cladistic studies based on molecular data showed that senegalia is monophyletic.
Two competing phylogenies exist based on genetic and molecular data.
Analysis of molecular data is required to resolve the systematics of these taxa.
Support collection of molecular data.
The implication of these molecular data on the systematics of the subtribes is discussed.
It needs to be confirmed and further resolved using other molecular data.
Certain molecular data which can be included in a register of genetic modifications already made.
Subsequent phylogenetic studies based on molecular data have vindicated this view.
The results are not compatible with the previously published molecular data.
Cytogenetic and molecular data are important tools to understand the species evolution process.
They further correlated biochemical and molecular data with the response to treatment.
Recent molecular data have revealed the existence of six main evolutionary lineages.
This subspecies designation differs when are used cranial characters and molecular data.
The addition of molecular data has allowed researchers to resolve clades in many lineages.
There is no support for their distinct species status from molecular data however.
The use of molecular data can contribute to resolve the complex internal classification.
The fungi were identified using a combination of morphological features and molecular data.
Molecular data is more objective and has a better repeatability than morphological data.
The murine fossil record has been accurately classified via molecular data analysis.
New integrative analysis of molecular data might radically change tumor classification systems.
These results remained incongruent when compared to results obtained later from molecular data.
The evidence for this clade derives from molecular data and morphological characteristics.
Recent molecular data also show that evolution repeats itself in genes and mutations.
Characters explored are mainly based in osteology and molecular data of nuclear and mitochondrial genes.
Morphological and molecular data were used for an analysis with formation of six different groups.
Bokimekot was confirmed as a new species through probabilistic methodologies applied to morphological and molecular data.
Phylogenetic analyses carried out using molecular data have proposed the monofiletism of section aranella.
Our main concern is on modeling the evolutionary relationships based on the observed molecular data.
Phylogenetic analyses carried out using molecular data have demonstrated the polyphyletic nature of vriesea.
The molecular data also help to demonstrate the genetic relatedness between geographically distant localities.
This study provides new morphometric and molecular data on this previously poorly described parasite.
This work aimed to infer the phylogenetic relationships among nannostomus species using molecular data.
This information together with molecular data from living species was then used to build a phylogeny.
Molecular data storage could potentially revolutionize the way major data centers around the store information.
Artificial crosses between these two species and also molecular data strengthened this suggestion.
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Examples of using Molecular
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We can manipulate molecular structures and we can
Molecular basis for diagnosis of human diseases
Genetic code and molecular mechanisms in mutations
Examples of using Data
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Select the data to display on that line
There is also evidence based on modelling data
Data on these populations are often not available
