Results 321 to 330 of about 90,456 (335)
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2018
Copepods are the most studied zooplankton focussing on diversity, morphology, taxonomy, phylogeny, distribution, life-cycle strategies, feeding behaviour and adaptation to various environmental conditions (Bradford-Grieve et al. 2010; Blanco-Bercial et al. 2011; Saiz and Calbet 2011).
C. Rajthilak +4 more
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Copepods are the most studied zooplankton focussing on diversity, morphology, taxonomy, phylogeny, distribution, life-cycle strategies, feeding behaviour and adaptation to various environmental conditions (Bradford-Grieve et al. 2010; Blanco-Bercial et al. 2011; Saiz and Calbet 2011).
C. Rajthilak +4 more
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DNA Barcoding Methods for Invertebrates
2012Invertebrates comprise approximately 34 phyla, while vertebrates represent one subphylum and insects a (very large) class. Thus, the clades excepting vertebrates and insects encompass almost all of animal diversity. Consequently, the barcoding challenge in invertebrates is that of barcoding animals in general.
Gustav Paulay, Nathaniel M. Evans
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DNA Barcoding of Marine Metazoa
Annual Review of Marine Science, 2011More than 230,000 known species representing 31 metazoan phyla populate the world's oceans. Perhaps another 1,000,000 or more species remain to be discovered. There is reason for concern that species extinctions may outpace discovery, especially in diverse and endangered marine habitats such as coral reefs.
Leocadio Blanco-Bercial +2 more
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DNA Origami Barcodes for Immunostaining
ACS Applied Materials & InterfacesIn histology, immunostaining of biological samples is a gold standard for studying cellular processes, such as the expression of cell surface markers or the cellular uptake of proteins and drug molecules. Immuno-gold labeling is a commonly used technique to achieve nanometer spatial resolution, but simultaneous visualization of multiple antigens in ...
Praneetha Sundar Prakash +10 more
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DNA Barcodes: Methods and Protocols
2012DNA barcoding, a new method for the quick identification of any species based on extracting a DNA sequence from a tiny tissue sample of any organism, is now being applied to taxa across the tree of life. As a research tool for taxonomists, DNA barcoding assists in identification by expanding the ability to diagnose species by including all life history
W. John Kress, David L. Erickson
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DNA Sequencing Technologies and DNA Barcoding
DNA barcodes are short, standardized DNA segments that geneticists can use to identify all living taxa. On the other hand, DNA barcoding identifies species by analyzing these specific regions against a DNA barcode reference library. In its initial years, DNA barcodes sequenced by Sanger's method were extensively used by taxonomists for the ...Anisha, David +2 more
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DNA barcoding of Canada’s skates
Molecular Ecology Resources, 2011AbstractDNA‐based identifications have been employed across broad taxonomic ranges and provide an especially useful tool in cases where external identification may be problematic. This study explored the utility of DNA barcoding in resolving skate species found in Atlantic Canadian waters.
C. Miri +5 more
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DNA barcoding: the social frontier
Frontiers in Ecology and the Environment, 2007DNA barcoding has been promoted as the holy grail of biodiversity conservation. Its proponents envision a time when anyone will be able to use a portable Life Barcoder to identify a fragment of an organism to the species level within seconds. While several critics have questioned whether DNA barcoding will work technically, claims about its social ...
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DNA Barcoding of Marine Metazoans
2016The accumulation of DNA barcode sequences will provide an increasingly useful and comprehensive library for species identification and discovery of marine metazoans. Here we present a summary of protocols designed to obtain DNA barcodes of marine metazoans from diverse phyla.
Dirk Steinke +2 more
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Generating 2D Barcode for DNA Barcode Sequences
DNA barcode sequence is a short DNA sequence representing a sample from a particular species. The commonly used DNA barcodes are at least 200 bps long. This large number of characters cannot be encoded in two-dimensional codes for sample recognition and tracking. In the present study, we described a method that can be used to compress the DNA sequencesRui, Liu +3 more
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