Convergence in form and function overcomes non-parallel evolutionary histories in a Holarctic fish

Further twists in gastropod shell evolution

Biology Letters ◽

10.1098/rsbl.2007.0602 ◽

2008 ◽

Vol 4 (2) ◽

pp. 179-182 ◽

Cited By ~ 14

Author(s):

Reuben Clements ◽

Thor-Seng Liew ◽

Jaap Jan Vermeulen ◽

Menno Schilthuizen

Keyword(s):

Evolutionary Biology ◽

Logarithmic Spiral ◽

Spiral Growth ◽

Evolutionary Perspective ◽

Gastropod Shell ◽

Form And Function ◽

Evolutionary Origins ◽

Taxonomic Groups ◽

And Function ◽

Shell Coiling

The manner in which a gastropod shell coils has long intrigued laypersons and scientists alike. In evolutionary biology, gastropod shells are among the best-studied palaeontological and neontological objects. A gastropod shell generally exhibits logarithmic spiral growth, right-handedness and coils tightly around a single axis. Atypical shell-coiling patterns (e.g. sinistroid growth, uncoiled whorls and multiple coiling axes), however, continue to be uncovered in nature. Here, we report another coiling strategy that is not only puzzling from an evolutionary perspective, but also hitherto unknown among shelled gastropods. The terrestrial gastropod Opisthostoma vermiculum sp. nov. generates a shell with: (i) four discernable coiling axes, (ii) body whorls that thrice detach and twice reattach to preceding whorls without any reference support, and (iii) detached whorls that coil around three secondary axes in addition to their primary teleoconch axis. As the coiling strategies of individuals were found to be generally consistent throughout, this species appears to possess an unorthodox but rigorously defined set of developmental instructions. Although the evolutionary origins of O. vermiculum and its shell's functional significance can be elucidated only once fossil intermediates and live individuals are found, its bewildering morphology suggests that we still lack an understanding of relationships between form and function in certain taxonomic groups.

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The developmental transcriptome of contrasting Arctic charr (Salvelinus alpinus) morphs

F1000Research ◽

10.12688/f1000research.6402.3 ◽

2016 ◽

Vol 4 ◽

pp. 136 ◽

Cited By ~ 1

Author(s):

Johannes Gudbrandsson ◽

Ehsan P. Ahi ◽

Sigridur R. Franzdottir ◽

Kalina H. Kapralova ◽

Bjarni K. Kristjansson ◽

...

Keyword(s):

Salvelinus Alpinus ◽

Arctic Charr ◽

Parallel Evolution ◽

Ecological Traits ◽

Single Nucleotide ◽

Last Glacial Period ◽

Genetic Studies ◽

Lectin Family ◽

Rna Genes ◽

The Last Glacial

Species and populations with parallel evolution of specific traits can help illuminate how predictable adaptations and divergence are at the molecular and developmental level. Following the last glacial period, dwarfism and specialized bottom feeding morphology evolved rapidly in several landlocked Arctic charrSalvelinus alpinuspopulations in Iceland. To study the genetic divergence between small benthic morphs and limnetic morphs, we conducted RNA-sequencing charr embryos at four stages in early development. We studied two stocks with contrasting morphologies: the small benthic (SB) charr from Lake Thingvallavatn and Holar aquaculture (AC) charr.The data reveal significant differences in expression of several biological pathways during charr development. There was also an expression difference between SB- and AC-charr in genes involved in energy metabolism and blood coagulation genes. We confirmed differing expression of five genes in whole embryos with qPCR, includinglysozymeandnatterin-likewhich was previously identified as a fish-toxin of a lectin family that may be a putative immunopeptide. We also verified differential expression of 7 genes in the developing head that associated consistently with benthic v.s.limnetic morphology (studied in 4 morphs). Comparison of single nucleotide polymorphism (SNP) frequencies reveals extensive genetic differentiation between the SB and AC-charr (~1300 with more than 50% frequency difference). Curiously, three derived alleles in the otherwise conserved 12s and 16s mitochondrial ribosomal RNA genes are found in benthic charr.The data implicate multiple genes and molecular pathways in divergence of small benthic charr and/or the response of aquaculture charr to domestication. Functional, genetic and population genetic studies on more freshwater and anadromous populations are needed to confirm the specific loci and mutations relating to specific ecological traits in Arctic charr.

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The developmental transcriptome of contrasting Arctic charr (Salvelinus alpinus) morphs

F1000Research ◽

10.12688/f1000research.6402.2 ◽

2016 ◽

Vol 4 ◽

pp. 136 ◽

Cited By ~ 4

Author(s):

Johannes Gudbrandsson ◽

Ehsan P. Ahi ◽

Sigridur R. Franzdottir ◽

Kalina H. Kapralova ◽

Bjarni K. Kristjansson ◽

...

Keyword(s):

Salvelinus Alpinus ◽

Arctic Charr ◽

Parallel Evolution ◽

Ecological Traits ◽

Single Nucleotide ◽

Last Glacial Period ◽

Genetic Studies ◽

Lectin Family ◽

Rna Genes ◽

The Last Glacial

Species and populations with parallel evolution of specific traits can help illuminate how predictable adaptations and divergence are at the molecular and developmental level. Following the last glacial period, dwarfism and specialized bottom feeding morphology evolved rapidly in several landlocked Arctic charrSalvelinus alpinuspopulations in Iceland. To study the genetic divergence between small benthic morphs and limnetic morphs, we conducted RNA-sequencing charr embryos at four stages in early development. We studied two stocks with contrasting morphologies: the small benthic (SB) charr from Lake Thingvallavatn and Holar aquaculture (AC) charr.The data reveal significant differences in expression of several biological pathways during charr development. There was also an expression difference between SB- and AC-charr in genes involved in energy metabolism and blood coagulation genes. We confirmed differing expression of five genes in whole embryos with qPCR, includinglysozymeandnatterin-likewhich was previously identified as a fish-toxin of a lectin family that may be a putative immunopeptide. We also verified differential expression of 7 genes in the developing head that associated consistently with benthic v.s.limnetic morphology (studied in 4 morphs). Comparison of single nucleotide polymorphism (SNP) frequencies reveals extensive genetic differentiation between the SB and AC-charr (~1300 with more than 50% frequency difference). Curiously, three derived alleles in the otherwise conserved 12s and 16s mitochondrial ribosomal RNA genes are found in benthic charr.The data implicate multiple genes and molecular pathways in divergence of small benthic charr and/or the response of aquaculture charr to domestication. Functional, genetic and population genetic studies on more freshwater and anadromous populations are needed to confirm the specific loci and mutations relating to specific ecological traits in Arctic charr.

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The developmental transcriptome of contrasting Arctic charr (Salvelinus alpinus) morphs

F1000Research ◽

10.12688/f1000research.6402.1 ◽

2015 ◽

Vol 4 ◽

pp. 136 ◽

Cited By ~ 4

Author(s):

Johannes Gudbrandsson ◽

Ehsan P. Ahi ◽

Sigridur R. Franzdottir ◽

Kalina H. Kapralova ◽

Bjarni K. Kristjansson ◽

...

Keyword(s):

Salvelinus Alpinus ◽

Arctic Charr ◽

Parallel Evolution ◽

Ecological Traits ◽

Single Nucleotide ◽

Last Glacial Period ◽

Genetic Studies ◽

Lectin Family ◽

Rna Genes ◽

The Last Glacial

Species and populations with parallel evolution of specific traits can help illuminate how predictable adaptations and divergence are at the molecular and developmental level. Following the last glacial period, dwarfism and specialized bottom feeding morphology evolved rapidly in several landlocked Arctic charrSalvelinus alpinuspopulations in Iceland. To study the genetic divergence between small benthic morphs and limnetic morphs, we conducted RNA-sequencing charr embryos at four stages in early development. We studied two stocks with contrasting morphologies: the small benthic (SB) charr from Lake Thingvallavatn and Holar aquaculture (AC) charr.The data reveal significant differences in expression of several biological pathways during charr development. There was also an expression difference between SB- and AC-charr in genes involved in energy metabolism and blood coagulation genes. We confirmed differing expression of five genes in whole embryos with qPCR, includinglysozymeandnatterin-likewhich was previously identified as a fish-toxin of a lectin family that may be a putative immunopeptide. We also verified differential expression of 7 genes in the developing head that associated consistently with benthic v.s.limnetic morphology (studied in 4 morphs). Comparison of single nucleotide polymorphism (SNP) frequencies reveals extensive genetic differentiation between the SB and AC-charr (~1300 with more than 50% frequency difference). Curiously, three derived alleles in the otherwise conserved 12s and 16s mitochondrial ribosomal RNA genes are found in benthic charr.The data implicate multiple genes and molecular pathways in divergence of small benthic charr and/or the response of aquaculture charr to domestication. Functional, genetic and population genetic studies on more freshwater and anadromous populations are needed to confirm the specific loci and mutations relating to specific ecological traits in Arctic charr.

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Mechanical sensitivity reveals evolutionary dynamics of mechanical systems

Proceedings of The Royal Society B Biological Sciences ◽

10.1098/rspb.2014.3088 ◽

2015 ◽

Vol 282 (1804) ◽

pp. 20143088 ◽

Cited By ~ 30

Author(s):

P. S. L. Anderson ◽

S. N. Patek

Keyword(s):

Evolutionary Biology ◽

Evolutionary Dynamics ◽

Morphological Changes ◽

Morphological Diversity ◽

Mechanical Sensitivity ◽

Minimal Impact ◽

Form And Function ◽

Form Function ◽

And Function ◽

Four Bar Linkage

A classic question in evolutionary biology is how form–function relationships promote or limit diversification. Mechanical metrics, such as kinematic transmission (KT) in linkage systems, are useful tools for examining the evolution of form and function in a comparative context. The convergence of disparate systems on equivalent metric values (mechanical equivalence) has been highlighted as a source of potential morphological diversity under the assumption that morphology can evolve with minimal impact on function. However, this assumption does not account for mechanical sensitivity—the sensitivity of the metric to morphological changes in individual components of a structure. We examined the diversification of a four-bar linkage system in mantis shrimp (Stomatopoda), and found evidence for both mechanical equivalence and differential mechanical sensitivity. KT exhibited variable correlations with individual linkage components, highlighting the components that influence KT evolution, and the components that are free to evolve independently from KT and thereby contribute to the observed pattern of mechanical equivalence. Determining the mechanical sensitivity in a system leads to a deeper understanding of both functional convergence and morphological diversification. This study illustrates the importance of multi-level analyses in delineating the factors that limit and promote diversification in form–function systems.

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Scanning tunneling microscopy (STM) of DNA and RNA

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100152148 ◽

1989 ◽

Vol 47 ◽

pp. 34-35

Author(s):

Patricia G. Arscott ◽

Gil Lee ◽

Victor A. Bloomfield ◽

D. Fennell Evans

Keyword(s):

Molecular Structures ◽

Inorganic Materials ◽

Resolving Power ◽

Scanning Tunneling ◽

Tunneling Microscopy ◽

Form And Function ◽

Dna And Rna ◽

Calf Thymus ◽

And Function ◽

The Relationship

STM is one of the most promising techniques available for visualizing the fine details of biomolecular structure. It has been used to map the surface topography of inorganic materials in atomic dimensions, and thus has the resolving power not only to determine the conformation of small molecules but to distinguish site-specific features within a molecule. That level of detail is of critical importance in understanding the relationship between form and function in biological systems. The size, shape, and accessibility of molecular structures can be determined much more accurately by STM than by electron microscopy since no staining, shadowing or labeling with heavy metals is required, and there is no exposure to damaging radiation by electrons. Crystallography and most other physical techniques do not give information about individual molecules.We have obtained striking images of DNA and RNA, using calf thymus DNA and two synthetic polynucleotides, poly(dG-me5dC)·poly(dG-me5dC) and poly(rA)·poly(rU).

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