scholarly journals Intragenomic polymorphisms among high-copy loci: A genus-wide study of nuclear ribosomal DNA in Asclepias (Apocynaceae)

2014 ◽  
Author(s):  
Kevin Weitemier ◽  
Shannon C. K. Straub ◽  
Mark Fishbein ◽  
Aaron Liston
Keyword(s):  
Ribosomal Dna ◽  
Analytical Approach ◽  
Phylogenetic Signal ◽  
Low Frequency ◽  
Nuclear Ribosomal Dna ◽  
Asclepias Syriaca ◽  
Custom Perl Script ◽  
Bioinformatic Pipeline ◽  
Perl Script ◽  
Low Coverage

Despite knowledge that concerted evolution of high-copy loci is often imperfect, few studies investigate the extent of intragenomic polymorphisms and comparisons across a large number of species are rarely made. We present a bioinformatic pipeline for characterizing polymorphisms within an individual among copies of a high-copy locus. Results are presented for nuclear ribosomal DNA (nrDNA) across the milkweed genus, Asclepias. The 18S-26S portion of the nrDNA cistron of Asclepias syriaca served as a reference for assembly of the region from 124 samples representing 90 species of Asclepias. Reads were mapped back to each individual's consensus and at each position reads differing from the consensus were tallied using a custom perl script. Low frequency polymorphisms existed in all individuals (mean = 5.8%). Most nrDNA positions (91%) were polymorphic in at least one individual, with polymorphic sites being less frequent in subunit regions and loops. Highly polymorphic sites existed in each individual, with highest abundance in the “noncoding” ITS regions. Phylogenetic signal was present in the distribution of intragenomic polymorphisms across the genus. Intragenomic polymorphisms in nrDNA are common in Asclepias, being found at higher frequency than any other study to date. The high and variable frequency of polymorphisms across species highlights concerns that phylogenetic applications of nrDNA may be error-prone. The new analytical approach provided here is applicable to other taxa and other high-copy regions characterized by low coverage genome sequencing (genome skimming).

scholarly journals Intragenomic polymorphisms among high-copy loci: A genus-wide study of nuclear ribosomal DNA in Asclepias (Apocynaceae)

2014 ◽  
Author(s):  
Kevin Weitemier ◽  
Shannon C. K. Straub ◽  
Mark Fishbein ◽  
Aaron Liston
Keyword(s):  
Ribosomal Dna ◽  
Analytical Approach ◽  
Phylogenetic Signal ◽  
Low Frequency ◽  
Nuclear Ribosomal Dna ◽  
Asclepias Syriaca ◽  
Custom Perl Script ◽  
Bioinformatic Pipeline ◽  
Perl Script ◽  
Low Coverage

Despite knowledge that concerted evolution of high-copy loci is often imperfect, few studies investigate the extent of intragenomic polymorphisms and comparisons across a large number of species are rarely made. We present a bioinformatic pipeline for characterizing polymorphisms within an individual among copies of a high-copy locus. Results are presented for nuclear ribosomal DNA (nrDNA) across the milkweed genus, Asclepias. The 18S-26S portion of the nrDNA cistron of Asclepias syriaca served as a reference for assembly of the region from 124 samples representing 90 species of Asclepias. Reads were mapped back to each individual's consensus and at each position reads differing from the consensus were tallied using a custom perl script. Low frequency polymorphisms existed in all individuals (mean = 5.8%). Most nrDNA positions (91%) were polymorphic in at least one individual, with polymorphic sites being less frequent in subunit regions and loops. Highly polymorphic sites existed in each individual, with highest abundance in the “noncoding” ITS regions. Phylogenetic signal was present in the distribution of intragenomic polymorphisms across the genus. Intragenomic polymorphisms in nrDNA are common in Asclepias, being found at higher frequency than any other study to date. The high and variable frequency of polymorphisms across species highlights concerns that phylogenetic applications of nrDNA may be error-prone. The new analytical approach provided here is applicable to other taxa and other high-copy regions characterized by low coverage genome sequencing (genome skimming).

scholarly journals Riding the ice age El Nino? Pacific biogeography and evolution of Metrosideros subg. Metrosideros (Myrtaceae) inferred from nuclear ribosomal DNA

2000 ◽  
Vol 97 (8) ◽  
pp. 4118-4123 ◽  
Author(s):  
S. D. Wright ◽  
C. G. Yong ◽  
J. W. Dawson ◽  
D. J. Whittaker ◽  
R. C. Gardner
Keyword(s):  
Ribosomal Dna ◽  
El Niño ◽  
El Nino ◽  
Ice Age ◽  
Nuclear Ribosomal Dna

scholarly journals Relationships of Nematodirus Species and Nematodirus battus Isolates (Nematoda: Trichostrongyloidea) Based on Nuclear Ribosomal DNA Sequences

2000 ◽  
Vol 86 (3) ◽  
pp. 588 ◽  
Author(s):  
Steven A. Nadler ◽  
Eric P. Hoberg ◽  
Deborah S. S. Hudspeth ◽  
Lora G. Rickard
Keyword(s):  
Ribosomal Dna ◽  
Dna Sequences ◽  
Nuclear Ribosomal Dna

An Analytical Model for the Interaction of Mass Inclusions in Heterogeneous (HG) Blankets

2011 ◽  
Vol 133 (6) ◽  
Author(s):  
A. Wagner ◽  
M. E. Johnson ◽  
K. Idrisi ◽  
D. P. Bartylla
Keyword(s):  
Elastic Layer ◽  
Analytical Approach ◽  
Low Frequency ◽  
Control Device ◽  
Effective Stiffness ◽  
Special Focus ◽  
Dynamic Vibration Absorber ◽  
Low Frequencies ◽  
Dynamic Vibration ◽  
The Masses

The heterogeneous (HG) blanket is a passive treatment used to reduce the low frequency transmission of sound through partitions. HG blankets, glued onto a structure, consist of an elastic medium with embedded mass inhomogeneities that mechanically replicate a mass-spring-damper system to reduce efficient radiating structural modes at low frequencies. The elastic layer typically used has sound absorption properties to create a noise control device with a wide bandwidth of performance. The natural frequency of an embedded dynamic vibration absorber is determined by the mass of the inhomogeneity as well as by its effective stiffness due to the interaction of the mass inclusion with the elastic layer. A novel analytical approach has been developed to describe in detail the interaction of the mass inclusions with the elastic layer and the interaction between the masses by evaluating special elastomechanical concepts. The effective stiffness is predicted by the analytical approach based on the shape of the mass inclusions as well as on the thickness and material properties of the layer. The experimental validation is included and a simplified direct equation to calculate the effective stiffness of a HG blanket is proposed. Furthermore, the stress field inside the elastic material will be evaluated with focus on the stresses at the base to assess the modeling of one or more masses placed on top of the elastic layer as dynamic vibration absorbers. Finally, the interaction between two (or more) masses placed onto the same layer is studied with special focus on the coupling of the masses at low distances between them.

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