The Experts below are selected from a list of 225 Experts worldwide ranked by ideXlab platform
Martin D Brazeau - One of the best experts on this subject based on the ideXlab platform.
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X-ray computed tomography library of shark anatomy and lower jaw surface models
Scientific Data, 2017Co-Authors: Pepijn Kamminga, Paul W. De Bruin, Jacob Geleijns, Martin D BrazeauAbstract:Design Type(s) data integration objective • species comparison design Measurement Type(s) morphology Technology Type(s) computed tomography Factor Type(s) animal body part • organism Sample Characteristic(s) Brachelurus waddi • Echinorhinus brucus • Centrophorus uyato • Chlamydoselachus anguineus • Pristiophorus japonicus • Centrophorus seychellorum • Cetorhinus maximus • Orectolobus japonicus • Apristurus laurussonii • Centroselachus crepidater • Sphyrna tudes • Euprotomicrus bispinatus • Etmopterus spinax • Mustelus higmani • Galeus melastomus • Galeorhinus galeus • Scyliorhinus stellaris • Squatina squatina • Carcharhinus leucas • Scyliorhinus canicula • Chiloscyllium punctatum • Halaelurus boesemani • Atelomycterus marmoratus • Hemiscyllium strahani • Prionace glauca • Squalus megalops • Atelomycterus macleayi • Carcharhinus hemiodon • Hemiscyllium trispeculare • Chiloscyllium arabicum • Sphyrna tiburo • Sphyrna corona • Mustelus mustelus • Isistius brasiliensis • Scymnodalatias albicauda • Deania calcea • Chiloscyllium griseum • Heterodontus japonicus • Eusphyra blochii • Sphyrna zygaena • Carcharhinus amboinensis • Triakis semifasciata • Squalus suckleyi • Carcharhinus macloti • Carcharhinus dussumieri • Chaenogaleus macrostoma • Hemigaleus microstoma • Sphyrna lewini • Halaelurus buergeri • Stegostoma fasciatum • Chiloscyllium indicum • Chiloscyllium hasseltii • Eucrossorhinus dasypogon • Scoliodon laticaudus • Oxynotus centrina • Carcharhinus melanopterus • Carcharhinus falciformis • Heterodontus francisci • Squatina africana • Triaenodon obesus • Ginglymostoma cirratum • Alopias vulpinus • Squalus cubensis • Isogomphodon oxyrhynchus • Heptranchias perlo • Rhizoprionodon terraenovae • Dalatias licha • Squatina japonica • Nebrius ferrugineus • Squalus acanthias • Lamna nasus • Mustelus asterias • Scyliorhinus boa • Lamna ditropis • Carcharodon carcharias • Isurus oxyrinchus • Isurus paucus • Centroscymnus coelolepis • Cephaloscyllium ventriosum • Galeocerdo cuvier • Pseudocarcharias kamoharai • Mitsukurina owstoni • Carcharias taurus • Carcharhinus acronotus • Sphyrna mokarran • Hexanchus griseus • Negaprion acutidens • Alopias superciliosus • Orectolobus maculatus • Carcharhinus brachyurus • Carcharhinus galapagensis • Mustelus henlei • Orectolobus ornatus • Proscyllium habereri • lower jaw region • whole body • head • pectoral fin • tail Machine-accessible metadata file describing the reported data (ISA-Tab format)AbstractThe cranial diversity of sharks reflects disparate biomechanical adaptations to feeding. In order to be able to investigate and better understand the ecomorphology of extant shark feeding systems, we created a x-ray computed tomography (CT) library of shark cranial anatomy with three-dimensional (3D) lower jaw reconstructions. This is used to examine and quantify lower jaw disparity in extant shark species in a separate study. The library is divided in a dataset comprised of medical CT scans of 122 sharks (Selachimorpha, Chondrichthyes) representing 73 extant species, including digitized morphology of entire shark specimens. This CT dataset and additional data provided by other researchers was used to reconstruct a second dataset containing 3D models of the left lower jaw for 153 individuals representing 94 extant shark species. These datasets form an extensive anatomical record of shark skeletal anatomy, necessary for comparative morphological, biomechanical, ecological and phylogenetic studies.
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3D reconstruction of the left lower jaw of Squalus acanthias (ZMA.PISC.116130)
2017Co-Authors: Martin D Brazeau, Pepijn Kamminga, Paul W. De Bruin, Jacob GeleijnsAbstract:3D reconstruction of the left lower jaw of Squalus acanthias (ZMA.PISC.116130
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3D reconstruction of the left lower jaw of Squalus suckleyi (RMNH.PISC.4322)
2017Co-Authors: Martin D Brazeau, Pepijn Kamminga, Paul W. De Bruin, Jacob GeleijnsAbstract:3D reconstruction of the left lower jaw of Squalus suckleyi (RMNH.PISC.4322
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3D reconstruction of the left lower jaw of Squalus megalops (RMNH.PISC.34046)
2017Co-Authors: Martin D Brazeau, Pepijn Kamminga, Paul W. De Bruin, Jacob GeleijnsAbstract:3D reconstruction of the left lower jaw of Squalus megalops (RMNH.PISC.34046
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3D reconstruction of the left lower jaw of Squalus cubensis (ZMA.PISC.111207)
2017Co-Authors: Martin D Brazeau, Pepijn Kamminga, Paul W. De Bruin, Jacob GeleijnsAbstract:3D reconstruction of the left lower jaw of Squalus cubensis (ZMA.PISC.111207
Jacob Geleijns - One of the best experts on this subject based on the ideXlab platform.
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X-ray computed tomography library of shark anatomy and lower jaw surface models
Scientific Data, 2017Co-Authors: Pepijn Kamminga, Paul W. De Bruin, Jacob Geleijns, Martin D BrazeauAbstract:Design Type(s) data integration objective • species comparison design Measurement Type(s) morphology Technology Type(s) computed tomography Factor Type(s) animal body part • organism Sample Characteristic(s) Brachelurus waddi • Echinorhinus brucus • Centrophorus uyato • Chlamydoselachus anguineus • Pristiophorus japonicus • Centrophorus seychellorum • Cetorhinus maximus • Orectolobus japonicus • Apristurus laurussonii • Centroselachus crepidater • Sphyrna tudes • Euprotomicrus bispinatus • Etmopterus spinax • Mustelus higmani • Galeus melastomus • Galeorhinus galeus • Scyliorhinus stellaris • Squatina squatina • Carcharhinus leucas • Scyliorhinus canicula • Chiloscyllium punctatum • Halaelurus boesemani • Atelomycterus marmoratus • Hemiscyllium strahani • Prionace glauca • Squalus megalops • Atelomycterus macleayi • Carcharhinus hemiodon • Hemiscyllium trispeculare • Chiloscyllium arabicum • Sphyrna tiburo • Sphyrna corona • Mustelus mustelus • Isistius brasiliensis • Scymnodalatias albicauda • Deania calcea • Chiloscyllium griseum • Heterodontus japonicus • Eusphyra blochii • Sphyrna zygaena • Carcharhinus amboinensis • Triakis semifasciata • Squalus suckleyi • Carcharhinus macloti • Carcharhinus dussumieri • Chaenogaleus macrostoma • Hemigaleus microstoma • Sphyrna lewini • Halaelurus buergeri • Stegostoma fasciatum • Chiloscyllium indicum • Chiloscyllium hasseltii • Eucrossorhinus dasypogon • Scoliodon laticaudus • Oxynotus centrina • Carcharhinus melanopterus • Carcharhinus falciformis • Heterodontus francisci • Squatina africana • Triaenodon obesus • Ginglymostoma cirratum • Alopias vulpinus • Squalus cubensis • Isogomphodon oxyrhynchus • Heptranchias perlo • Rhizoprionodon terraenovae • Dalatias licha • Squatina japonica • Nebrius ferrugineus • Squalus acanthias • Lamna nasus • Mustelus asterias • Scyliorhinus boa • Lamna ditropis • Carcharodon carcharias • Isurus oxyrinchus • Isurus paucus • Centroscymnus coelolepis • Cephaloscyllium ventriosum • Galeocerdo cuvier • Pseudocarcharias kamoharai • Mitsukurina owstoni • Carcharias taurus • Carcharhinus acronotus • Sphyrna mokarran • Hexanchus griseus • Negaprion acutidens • Alopias superciliosus • Orectolobus maculatus • Carcharhinus brachyurus • Carcharhinus galapagensis • Mustelus henlei • Orectolobus ornatus • Proscyllium habereri • lower jaw region • whole body • head • pectoral fin • tail Machine-accessible metadata file describing the reported data (ISA-Tab format)AbstractThe cranial diversity of sharks reflects disparate biomechanical adaptations to feeding. In order to be able to investigate and better understand the ecomorphology of extant shark feeding systems, we created a x-ray computed tomography (CT) library of shark cranial anatomy with three-dimensional (3D) lower jaw reconstructions. This is used to examine and quantify lower jaw disparity in extant shark species in a separate study. The library is divided in a dataset comprised of medical CT scans of 122 sharks (Selachimorpha, Chondrichthyes) representing 73 extant species, including digitized morphology of entire shark specimens. This CT dataset and additional data provided by other researchers was used to reconstruct a second dataset containing 3D models of the left lower jaw for 153 individuals representing 94 extant shark species. These datasets form an extensive anatomical record of shark skeletal anatomy, necessary for comparative morphological, biomechanical, ecological and phylogenetic studies.
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3D reconstruction of the left lower jaw of Squalus acanthias (ZMA.PISC.116130)
2017Co-Authors: Martin D Brazeau, Pepijn Kamminga, Paul W. De Bruin, Jacob GeleijnsAbstract:3D reconstruction of the left lower jaw of Squalus acanthias (ZMA.PISC.116130
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3D reconstruction of the left lower jaw of Squalus suckleyi (RMNH.PISC.4322)
2017Co-Authors: Martin D Brazeau, Pepijn Kamminga, Paul W. De Bruin, Jacob GeleijnsAbstract:3D reconstruction of the left lower jaw of Squalus suckleyi (RMNH.PISC.4322
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3D reconstruction of the left lower jaw of Squalus megalops (RMNH.PISC.34046)
2017Co-Authors: Martin D Brazeau, Pepijn Kamminga, Paul W. De Bruin, Jacob GeleijnsAbstract:3D reconstruction of the left lower jaw of Squalus megalops (RMNH.PISC.34046
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3D reconstruction of the left lower jaw of Squalus cubensis (ZMA.PISC.111207)
2017Co-Authors: Martin D Brazeau, Pepijn Kamminga, Paul W. De Bruin, Jacob GeleijnsAbstract:3D reconstruction of the left lower jaw of Squalus cubensis (ZMA.PISC.111207
Rolf K. H. Kinne - One of the best experts on this subject based on the ideXlab platform.
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Sugar uptake, metabolism, and chloride secretion in the rectal gland of the spiny dogfish Squalus acanthias.
American journal of physiology. Regulatory integrative and comparative physiology, 2020Co-Authors: Rolf K. H. Kinne, Katherine Spokes, P SilvaAbstract:The rectal gland of the spiny dogfish Squalus acanthias secretes a salt solution isosmotic with plasma that maintains the salt homeostasis of the fish. It secretes salt against an electrochemical g...
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na d glucose cotransporter in the kidney of Squalus acanthias molecular identification and intrarenal distribution
American Journal of Physiology-regulatory Integrative and Comparative Physiology, 2006Co-Authors: Thorsten Althoff, Jutta Luig, Hendrike Schutz, Myriam Kasch, Hartmut Hentschel, Rolf K. H. KinneAbstract:Using primers against conserved regions of mammalian Na+-d-glucose cotransporters (SGLT), a cDNA was cloned from the kidney of spiny dogfish shark (Squalus acanthias). On the basis of comparison of...
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Na(+)-D-glucose cotransporter in the kidney of Squalus acanthias: molecular identification and intrarenal distribution.
American Journal of Physiology-regulatory Integrative and Comparative Physiology, 2005Co-Authors: Thorsten Althoff, Jutta Luig, Hendrike Schutz, Myriam Kasch, Hartmut Hentschel, Rolf K. H. KinneAbstract:Using primers against conserved regions of mammalian Na+-d-glucose cotransporters (SGLT), a cDNA was cloned from the kidney of spiny dogfish shark (Squalus acanthias). On the basis of comparison of...
Pepijn Kamminga - One of the best experts on this subject based on the ideXlab platform.
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X-ray computed tomography library of shark anatomy and lower jaw surface models
Scientific Data, 2017Co-Authors: Pepijn Kamminga, Paul W. De Bruin, Jacob Geleijns, Martin D BrazeauAbstract:Design Type(s) data integration objective • species comparison design Measurement Type(s) morphology Technology Type(s) computed tomography Factor Type(s) animal body part • organism Sample Characteristic(s) Brachelurus waddi • Echinorhinus brucus • Centrophorus uyato • Chlamydoselachus anguineus • Pristiophorus japonicus • Centrophorus seychellorum • Cetorhinus maximus • Orectolobus japonicus • Apristurus laurussonii • Centroselachus crepidater • Sphyrna tudes • Euprotomicrus bispinatus • Etmopterus spinax • Mustelus higmani • Galeus melastomus • Galeorhinus galeus • Scyliorhinus stellaris • Squatina squatina • Carcharhinus leucas • Scyliorhinus canicula • Chiloscyllium punctatum • Halaelurus boesemani • Atelomycterus marmoratus • Hemiscyllium strahani • Prionace glauca • Squalus megalops • Atelomycterus macleayi • Carcharhinus hemiodon • Hemiscyllium trispeculare • Chiloscyllium arabicum • Sphyrna tiburo • Sphyrna corona • Mustelus mustelus • Isistius brasiliensis • Scymnodalatias albicauda • Deania calcea • Chiloscyllium griseum • Heterodontus japonicus • Eusphyra blochii • Sphyrna zygaena • Carcharhinus amboinensis • Triakis semifasciata • Squalus suckleyi • Carcharhinus macloti • Carcharhinus dussumieri • Chaenogaleus macrostoma • Hemigaleus microstoma • Sphyrna lewini • Halaelurus buergeri • Stegostoma fasciatum • Chiloscyllium indicum • Chiloscyllium hasseltii • Eucrossorhinus dasypogon • Scoliodon laticaudus • Oxynotus centrina • Carcharhinus melanopterus • Carcharhinus falciformis • Heterodontus francisci • Squatina africana • Triaenodon obesus • Ginglymostoma cirratum • Alopias vulpinus • Squalus cubensis • Isogomphodon oxyrhynchus • Heptranchias perlo • Rhizoprionodon terraenovae • Dalatias licha • Squatina japonica • Nebrius ferrugineus • Squalus acanthias • Lamna nasus • Mustelus asterias • Scyliorhinus boa • Lamna ditropis • Carcharodon carcharias • Isurus oxyrinchus • Isurus paucus • Centroscymnus coelolepis • Cephaloscyllium ventriosum • Galeocerdo cuvier • Pseudocarcharias kamoharai • Mitsukurina owstoni • Carcharias taurus • Carcharhinus acronotus • Sphyrna mokarran • Hexanchus griseus • Negaprion acutidens • Alopias superciliosus • Orectolobus maculatus • Carcharhinus brachyurus • Carcharhinus galapagensis • Mustelus henlei • Orectolobus ornatus • Proscyllium habereri • lower jaw region • whole body • head • pectoral fin • tail Machine-accessible metadata file describing the reported data (ISA-Tab format)AbstractThe cranial diversity of sharks reflects disparate biomechanical adaptations to feeding. In order to be able to investigate and better understand the ecomorphology of extant shark feeding systems, we created a x-ray computed tomography (CT) library of shark cranial anatomy with three-dimensional (3D) lower jaw reconstructions. This is used to examine and quantify lower jaw disparity in extant shark species in a separate study. The library is divided in a dataset comprised of medical CT scans of 122 sharks (Selachimorpha, Chondrichthyes) representing 73 extant species, including digitized morphology of entire shark specimens. This CT dataset and additional data provided by other researchers was used to reconstruct a second dataset containing 3D models of the left lower jaw for 153 individuals representing 94 extant shark species. These datasets form an extensive anatomical record of shark skeletal anatomy, necessary for comparative morphological, biomechanical, ecological and phylogenetic studies.
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3D reconstruction of the left lower jaw of Squalus acanthias (ZMA.PISC.116130)
2017Co-Authors: Martin D Brazeau, Pepijn Kamminga, Paul W. De Bruin, Jacob GeleijnsAbstract:3D reconstruction of the left lower jaw of Squalus acanthias (ZMA.PISC.116130
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3D reconstruction of the left lower jaw of Squalus suckleyi (RMNH.PISC.4322)
2017Co-Authors: Martin D Brazeau, Pepijn Kamminga, Paul W. De Bruin, Jacob GeleijnsAbstract:3D reconstruction of the left lower jaw of Squalus suckleyi (RMNH.PISC.4322
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3D reconstruction of the left lower jaw of Squalus megalops (RMNH.PISC.34046)
2017Co-Authors: Martin D Brazeau, Pepijn Kamminga, Paul W. De Bruin, Jacob GeleijnsAbstract:3D reconstruction of the left lower jaw of Squalus megalops (RMNH.PISC.34046
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3D reconstruction of the left lower jaw of Squalus cubensis (ZMA.PISC.111207)
2017Co-Authors: Martin D Brazeau, Pepijn Kamminga, Paul W. De Bruin, Jacob GeleijnsAbstract:3D reconstruction of the left lower jaw of Squalus cubensis (ZMA.PISC.111207
Paul W. De Bruin - One of the best experts on this subject based on the ideXlab platform.
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X-ray computed tomography library of shark anatomy and lower jaw surface models
Scientific Data, 2017Co-Authors: Pepijn Kamminga, Paul W. De Bruin, Jacob Geleijns, Martin D BrazeauAbstract:Design Type(s) data integration objective • species comparison design Measurement Type(s) morphology Technology Type(s) computed tomography Factor Type(s) animal body part • organism Sample Characteristic(s) Brachelurus waddi • Echinorhinus brucus • Centrophorus uyato • Chlamydoselachus anguineus • Pristiophorus japonicus • Centrophorus seychellorum • Cetorhinus maximus • Orectolobus japonicus • Apristurus laurussonii • Centroselachus crepidater • Sphyrna tudes • Euprotomicrus bispinatus • Etmopterus spinax • Mustelus higmani • Galeus melastomus • Galeorhinus galeus • Scyliorhinus stellaris • Squatina squatina • Carcharhinus leucas • Scyliorhinus canicula • Chiloscyllium punctatum • Halaelurus boesemani • Atelomycterus marmoratus • Hemiscyllium strahani • Prionace glauca • Squalus megalops • Atelomycterus macleayi • Carcharhinus hemiodon • Hemiscyllium trispeculare • Chiloscyllium arabicum • Sphyrna tiburo • Sphyrna corona • Mustelus mustelus • Isistius brasiliensis • Scymnodalatias albicauda • Deania calcea • Chiloscyllium griseum • Heterodontus japonicus • Eusphyra blochii • Sphyrna zygaena • Carcharhinus amboinensis • Triakis semifasciata • Squalus suckleyi • Carcharhinus macloti • Carcharhinus dussumieri • Chaenogaleus macrostoma • Hemigaleus microstoma • Sphyrna lewini • Halaelurus buergeri • Stegostoma fasciatum • Chiloscyllium indicum • Chiloscyllium hasseltii • Eucrossorhinus dasypogon • Scoliodon laticaudus • Oxynotus centrina • Carcharhinus melanopterus • Carcharhinus falciformis • Heterodontus francisci • Squatina africana • Triaenodon obesus • Ginglymostoma cirratum • Alopias vulpinus • Squalus cubensis • Isogomphodon oxyrhynchus • Heptranchias perlo • Rhizoprionodon terraenovae • Dalatias licha • Squatina japonica • Nebrius ferrugineus • Squalus acanthias • Lamna nasus • Mustelus asterias • Scyliorhinus boa • Lamna ditropis • Carcharodon carcharias • Isurus oxyrinchus • Isurus paucus • Centroscymnus coelolepis • Cephaloscyllium ventriosum • Galeocerdo cuvier • Pseudocarcharias kamoharai • Mitsukurina owstoni • Carcharias taurus • Carcharhinus acronotus • Sphyrna mokarran • Hexanchus griseus • Negaprion acutidens • Alopias superciliosus • Orectolobus maculatus • Carcharhinus brachyurus • Carcharhinus galapagensis • Mustelus henlei • Orectolobus ornatus • Proscyllium habereri • lower jaw region • whole body • head • pectoral fin • tail Machine-accessible metadata file describing the reported data (ISA-Tab format)AbstractThe cranial diversity of sharks reflects disparate biomechanical adaptations to feeding. In order to be able to investigate and better understand the ecomorphology of extant shark feeding systems, we created a x-ray computed tomography (CT) library of shark cranial anatomy with three-dimensional (3D) lower jaw reconstructions. This is used to examine and quantify lower jaw disparity in extant shark species in a separate study. The library is divided in a dataset comprised of medical CT scans of 122 sharks (Selachimorpha, Chondrichthyes) representing 73 extant species, including digitized morphology of entire shark specimens. This CT dataset and additional data provided by other researchers was used to reconstruct a second dataset containing 3D models of the left lower jaw for 153 individuals representing 94 extant shark species. These datasets form an extensive anatomical record of shark skeletal anatomy, necessary for comparative morphological, biomechanical, ecological and phylogenetic studies.
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3D reconstruction of the left lower jaw of Squalus acanthias (ZMA.PISC.116130)
2017Co-Authors: Martin D Brazeau, Pepijn Kamminga, Paul W. De Bruin, Jacob GeleijnsAbstract:3D reconstruction of the left lower jaw of Squalus acanthias (ZMA.PISC.116130
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3D reconstruction of the left lower jaw of Squalus suckleyi (RMNH.PISC.4322)
2017Co-Authors: Martin D Brazeau, Pepijn Kamminga, Paul W. De Bruin, Jacob GeleijnsAbstract:3D reconstruction of the left lower jaw of Squalus suckleyi (RMNH.PISC.4322
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3D reconstruction of the left lower jaw of Squalus megalops (RMNH.PISC.34046)
2017Co-Authors: Martin D Brazeau, Pepijn Kamminga, Paul W. De Bruin, Jacob GeleijnsAbstract:3D reconstruction of the left lower jaw of Squalus megalops (RMNH.PISC.34046
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3D reconstruction of the left lower jaw of Squalus cubensis (ZMA.PISC.111207)
2017Co-Authors: Martin D Brazeau, Pepijn Kamminga, Paul W. De Bruin, Jacob GeleijnsAbstract:3D reconstruction of the left lower jaw of Squalus cubensis (ZMA.PISC.111207