Comparative reconstruction of the predatory feeding structures of the polyphenic nematode Pristionchus pacificus

Clayton J. Harry; Sonia M. Messar; Erik J. Ragsdale

doi:10.1111/ede.12397

Loading next page...

References (177)

(1998)
Nuclei described as "8-shaped" and the result of embryonic fusion of two nuclei each
H. Spencer
The structure of the nervous system.
J. Sulston, E. Schierenberg, J. White, J. Thomson (1983)
The embryonic cell lineage of the nematode Caenorhabditis elegans.
Developmental biology, 100 1
Oren Schaedel, Birgit Gerisch, Adam Antebi, P. Sternberg (2012)
Hormonal Signal Amplification Mediates Environmental Conditions during Development and Controls an Irreversible Commitment to Adulthood
PLoS Biology, 10
( Bumbarger, D. , & Riebesell, M. (2015). Anatomy and connectivity in the pharyngeal nervous system. In R. J. Sommer (Ed.), Pristionchus pacificus: A nematode model for comparative and evolutionary biology (pp. 353–383). Brill.)
Bumbarger, D. , & Riebesell, M. (2015). Anatomy and connectivity in the pharyngeal nervous system. In R. J. Sommer (Ed.), Pristionchus pacificus: A nematode model for comparative and evolutionary biology (pp. 353–383). Brill.
Bumbarger, D. , & Riebesell, M. (2015). Anatomy and connectivity in the pharyngeal nervous system. In R. J. Sommer (Ed.), Pristionchus pacificus: A nematode model for comparative and evolutionary biology (pp. 353–383). Brill., Bumbarger, D. , & Riebesell, M. (2015). Anatomy and connectivity in the pharyngeal nervous system. In R. J. Sommer (Ed.), Pristionchus pacificus: A nematode model for comparative and evolutionary biology (pp. 353–383). Brill.
( Poinar, G. O. (1971). The natural history of nematodes. Prentice‐Hall.)
Poinar, G. O. (1971). The natural history of nematodes. Prentice‐Hall.
Poinar, G. O. (1971). The natural history of nematodes. Prentice‐Hall., Poinar, G. O. (1971). The natural history of nematodes. Prentice‐Hall.
D. Eisenmann, J. Maloof, J. Simske, C. Kenyon, Stuart Kim (1998)
The beta-catenin homolog BAR-1 and LET-60 Ras coordinately regulate the Hox gene lin-39 during Caenorhabditis elegans vulval development.
Development, 125 18
Thomas Bräutigam (1887)
I, J
Klassiker des deutschsprachigen Dokumentarfilms
( Baldwin, J. G. , Souza, R. M. , & Dolinski, C. M. (2001). Fine structure and phylogenetic significance of a muscular basal bulb in Basiria gracilis Thorne, 1969 (Nematoda: Tylenchidae). Nematology, 3, 681–688.)
Baldwin, J. G. , Souza, R. M. , & Dolinski, C. M. (2001). Fine structure and phylogenetic significance of a muscular basal bulb in Basiria gracilis Thorne, 1969 (Nematoda: Tylenchidae). Nematology, 3, 681–688.
Baldwin, J. G. , Souza, R. M. , & Dolinski, C. M. (2001). Fine structure and phylogenetic significance of a muscular basal bulb in Basiria gracilis Thorne, 1969 (Nematoda: Tylenchidae). Nematology, 3, 681–688., Baldwin, J. G. , Souza, R. M. , & Dolinski, C. M. (2001). Fine structure and phylogenetic significance of a muscular basal bulb in Basiria gracilis Thorne, 1969 (Nematoda: Tylenchidae). Nematology, 3, 681–688.
A. Shepherd, S. Clark, D. Hooper (1980)
Structure of the Anterior Alimentary Tract of Aphelenchoides Blastophthor Us (Nematoda: Tylenchida, Aphelenchina)
Nematologica, 26
( Cardona, A. , Saalfeld, S. , Schindelin, J. , Arganda‐Carreras, I. , Preibisch, S. , Longair, M. , Tomancak, P. , Hartenstein, V. , & Douglas, R. J. (2012). TrakEM2 software for neural circuit reconstruction. PLoS One, 7, e38011.22723842)
Cardona, A. , Saalfeld, S. , Schindelin, J. , Arganda‐Carreras, I. , Preibisch, S. , Longair, M. , Tomancak, P. , Hartenstein, V. , & Douglas, R. J. (2012). TrakEM2 software for neural circuit reconstruction. PLoS One, 7, e38011.22723842
Cardona, A. , Saalfeld, S. , Schindelin, J. , Arganda‐Carreras, I. , Preibisch, S. , Longair, M. , Tomancak, P. , Hartenstein, V. , & Douglas, R. J. (2012). TrakEM2 software for neural circuit reconstruction. PLoS One, 7, e38011.22723842, Cardona, A. , Saalfeld, S. , Schindelin, J. , Arganda‐Carreras, I. , Preibisch, S. , Longair, M. , Tomancak, P. , Hartenstein, V. , & Douglas, R. J. (2012). TrakEM2 software for neural circuit reconstruction. PLoS One, 7, e38011.22723842
( Bento, G. , Ogawa, A. , & Sommer, R. J. (2010). Co‐option of the hormone‐signaling module dafachronic acid‐DAF‐12 in nematode evolution. Nature, 466, 494–497.20592728)
Bento, G. , Ogawa, A. , & Sommer, R. J. (2010). Co‐option of the hormone‐signaling module dafachronic acid‐DAF‐12 in nematode evolution. Nature, 466, 494–497.20592728
Bento, G. , Ogawa, A. , & Sommer, R. J. (2010). Co‐option of the hormone‐signaling module dafachronic acid‐DAF‐12 in nematode evolution. Nature, 466, 494–497.20592728, Bento, G. , Ogawa, A. , & Sommer, R. J. (2010). Co‐option of the hormone‐signaling module dafachronic acid‐DAF‐12 in nematode evolution. Nature, 466, 494–497.20592728
Eduardo Moreno, James Lightfoot, Maša Lenuzzi, R. Sommer (2019)
Cilia drive developmental plasticity and are essential for efficient prey detection in predatory nematodes
Proceedings of the Royal Society B, 286
Erik Ragsdale, N. Kanzaki, Waltraud Röseler, M. Herrmann, R. Sommer (2013)
Three new species of Pristionchus (Nematoda: Diplogastridae) show morphological divergence through evolutionary intermediates of a novel feeding‐structure polymorphism
Zoological Journal of the Linnean Society, 168
( Ludwig, W. (1932). Das Rechts‐links‐problem im Tierreich und beim Menschen. Springer Verlag.)
Ludwig, W. (1932). Das Rechts‐links‐problem im Tierreich und beim Menschen. Springer Verlag.
Ludwig, W. (1932). Das Rechts‐links‐problem im Tierreich und beim Menschen. Springer Verlag., Ludwig, W. (1932). Das Rechts‐links‐problem im Tierreich und beim Menschen. Springer Verlag.
Mohammed Ahmed, O. Holovachov (2021)
Twenty Years after De Ley and Blaxter—How Far Did We Progress in Understanding the Phylogeny of the Phylum Nematoda?
Animals : an Open Access Journal from MDPI, 11
( Ahmed, M. , & Holovachov, O. (2021). Twenty years after De Ley and Blaxter—How far did we progress in understanding the phylogeny of the Phylum Nematoda? Animals, 11, 3479.34944255)
Ahmed, M. , & Holovachov, O. (2021). Twenty years after De Ley and Blaxter—How far did we progress in understanding the phylogeny of the Phylum Nematoda? Animals, 11, 3479.34944255
Ahmed, M. , & Holovachov, O. (2021). Twenty years after De Ley and Blaxter—How far did we progress in understanding the phylogeny of the Phylum Nematoda? Animals, 11, 3479.34944255, Ahmed, M. , & Holovachov, O. (2021). Twenty years after De Ley and Blaxter—How far did we progress in understanding the phylogeny of the Phylum Nematoda? Animals, 11, 3479.34944255
Erik Ragsdale, Phuong-Thi Ngo, J. Crum, Mark Ellisman, J. Baldwin (2009)
Comparative, three‐dimensional anterior sensory reconstruction of Aphelenchus avenae (nematoda: Tylenchomorpha)
Journal of Comparative Neurology, 517
K. Wright, J. Thomson (1981)
The buccal capsule of Caenorhabditis elegans (Nematoda: Rhabditoidea): an ultrastructural study
Canadian Journal of Zoology, 59
( Sudhaus, W. (2011). PPhylogenetic systemisation and catalogue of paraphyletic “Rhabditidae” (Secernentea, Nematoda). Journal of Nematode Morphology and Systematics, 14, 113–178.)
Sudhaus, W. (2011). PPhylogenetic systemisation and catalogue of paraphyletic “Rhabditidae” (Secernentea, Nematoda). Journal of Nematode Morphology and Systematics, 14, 113–178.
Sudhaus, W. (2011). PPhylogenetic systemisation and catalogue of paraphyletic “Rhabditidae” (Secernentea, Nematoda). Journal of Nematode Morphology and Systematics, 14, 113–178., Sudhaus, W. (2011). PPhylogenetic systemisation and catalogue of paraphyletic “Rhabditidae” (Secernentea, Nematoda). Journal of Nematode Morphology and Systematics, 14, 113–178.
Vahan Serobyan, Erik Ragsdale, R. Sommer (2014)
Adaptive value of a predatory mouth-form in a dimorphic nematode
Proceedings of the Royal Society B: Biological Sciences, 281
Figures and Figure Supplements
Erik Ragsdale, J. Crum, Mark Ellisman, J. Baldwin (2008)
Three‐dimensional reconstruction of the stomatostylet and anterior epidermis in the nematode Aphelenchus avenae (Nematoda: Aphelenchidae) with implications for the evolution of plant parasitism
Journal of Morphology, 269
( Ishita, Y. , Chihara, T. , & Okumura, M. (2021). Different combinations of serotonin receptors regulate predatory and bacterial feeding behaviors in the nematode Pristionchus pacificus . G3: Genes, Genomes, Genetics, 11, jkab011.33598706)
Ishita, Y. , Chihara, T. , & Okumura, M. (2021). Different combinations of serotonin receptors regulate predatory and bacterial feeding behaviors in the nematode Pristionchus pacificus . G3: Genes, Genomes, Genetics, 11, jkab011.33598706
Ishita, Y. , Chihara, T. , & Okumura, M. (2021). Different combinations of serotonin receptors regulate predatory and bacterial feeding behaviors in the nematode Pristionchus pacificus . G3: Genes, Genomes, Genetics, 11, jkab011.33598706, Ishita, Y. , Chihara, T. , & Okumura, M. (2021). Different combinations of serotonin receptors regulate predatory and bacterial feeding behaviors in the nematode Pristionchus pacificus . G3: Genes, Genomes, Genetics, 11, jkab011.33598706
( Sommer, R. J. (2009). The future of evo‐devo: model systems and evolutionary theory. Nature Reviews Genetics, 10, 416–422.)
Sommer, R. J. (2009). The future of evo‐devo: model systems and evolutionary theory. Nature Reviews Genetics, 10, 416–422.
Sommer, R. J. (2009). The future of evo‐devo: model systems and evolutionary theory. Nature Reviews Genetics, 10, 416–422., Sommer, R. J. (2009). The future of evo‐devo: model systems and evolutionary theory. Nature Reviews Genetics, 10, 416–422.
Yuuki Ishita, T. Chihara, Misako Okumura (2021)
Different combinations of serotonin receptors regulate predatory and bacterial feeding behaviors in the nematode Pristionchus pacificus
G3: Genes|Genomes|Genetics, 11
N. Kanzaki, R. Giblin-Davis (2015)
Diplogastrid systematics and phylogeny
Koutarou Kimura, Donald Riddle, Gary Ruvkun (2011)
The C. elegans DAF-2 insulin-like receptor is abundantly expressed in the nervous system and regulated by nutritional status.
Cold Spring Harbor symposia on quantitative biology, 76
( Cochella, L. , & Hobert, O. (2012). Embryonic priming of a miRNA locus predetermines postmitotic neuronal left/right asymmetry in C. elegans . Cell, 151, 1229–1242.23201143)
Cochella, L. , & Hobert, O. (2012). Embryonic priming of a miRNA locus predetermines postmitotic neuronal left/right asymmetry in C. elegans . Cell, 151, 1229–1242.23201143
Cochella, L. , & Hobert, O. (2012). Embryonic priming of a miRNA locus predetermines postmitotic neuronal left/right asymmetry in C. elegans . Cell, 151, 1229–1242.23201143, Cochella, L. , & Hobert, O. (2012). Embryonic priming of a miRNA locus predetermines postmitotic neuronal left/right asymmetry in C. elegans . Cell, 151, 1229–1242.23201143
( Susoy, V. , Ragsdale, E. J. , Kanzaki, N. , & Sommer, R. J. (2015). Rapid diversification associated with a macroevolutionary pulse of developmental plasticity. eLife, 4, e05463.)
Susoy, V. , Ragsdale, E. J. , Kanzaki, N. , & Sommer, R. J. (2015). Rapid diversification associated with a macroevolutionary pulse of developmental plasticity. eLife, 4, e05463.
Susoy, V. , Ragsdale, E. J. , Kanzaki, N. , & Sommer, R. J. (2015). Rapid diversification associated with a macroevolutionary pulse of developmental plasticity. eLife, 4, e05463., Susoy, V. , Ragsdale, E. J. , Kanzaki, N. , & Sommer, R. J. (2015). Rapid diversification associated with a macroevolutionary pulse of developmental plasticity. eLife, 4, e05463.
J. Baldwin, C. Eddleman (1995)
Buccal capsule of Zeldia punctata (Nemata: Cephalobidae): an ultrastructural study
Canadian Journal of Zoology, 73
Kiyotaka Ohkura, N. Suzuki, T. Ishihara, I. Katsura (2003)
SDF-9, a protein tyrosine phosphatase-like molecule, regulates the L3/dauer developmental decision through hormonal signaling in C. elegans
, 130
( Smythe, A. B. (2015). Evolution of feeding structures in the marine nematode order Enoplida. Integrative and comparative biology, 55, 228–240.25987716)
Smythe, A. B. (2015). Evolution of feeding structures in the marine nematode order Enoplida. Integrative and comparative biology, 55, 228–240.25987716
Smythe, A. B. (2015). Evolution of feeding structures in the marine nematode order Enoplida. Integrative and comparative biology, 55, 228–240.25987716, Smythe, A. B. (2015). Evolution of feeding structures in the marine nematode order Enoplida. Integrative and comparative biology, 55, 228–240.25987716
De Ley P. (2002)
10.1201/b12614-2
( De Ley, P. , Van de Velde, M. C. , Mounport, D. , Baujard, P. , & Coomans, A. (1995). Ultrastructure of the stoma in Cephalobidae, Panagrolaimidae, and Rhabditidae, with a proposal for a revised stoma terminology in Rhabditida (Nematoda). Nematologica, 41, 153–182.)
De Ley, P. , Van de Velde, M. C. , Mounport, D. , Baujard, P. , & Coomans, A. (1995). Ultrastructure of the stoma in Cephalobidae, Panagrolaimidae, and Rhabditidae, with a proposal for a revised stoma terminology in Rhabditida (Nematoda). Nematologica, 41, 153–182.
De Ley, P. , Van de Velde, M. C. , Mounport, D. , Baujard, P. , & Coomans, A. (1995). Ultrastructure of the stoma in Cephalobidae, Panagrolaimidae, and Rhabditidae, with a proposal for a revised stoma terminology in Rhabditida (Nematoda). Nematologica, 41, 153–182., De Ley, P. , Van de Velde, M. C. , Mounport, D. , Baujard, P. , & Coomans, A. (1995). Ultrastructure of the stoma in Cephalobidae, Panagrolaimidae, and Rhabditidae, with a proposal for a revised stoma terminology in Rhabditida (Nematoda). Nematologica, 41, 153–182.
David Hall, Zeynep Altun (2008)
C. elegans Atlas
D. Bumbarger, J. Crum, Mark Ellisman, J. Baldwin (2006)
Three‐dimensional reconstruction of the nose epidermal cells in the microbial feeding nematode, Acrobeles complexus (Nematoda: Rhabditida)
Journal of Morphology, 267
( Good, K. , Ciosk, R. , Nance, J. , Neves, A. , Hill, R. J. , & Priess, J. R. (2004). The T‐box transcription factors TBX‐37 and TBX‐38 link GLP‐1/Notch signaling to mesoderm induction in C. elegans embryos. Development, 131, 1967–1978.15056620)
Good, K. , Ciosk, R. , Nance, J. , Neves, A. , Hill, R. J. , & Priess, J. R. (2004). The T‐box transcription factors TBX‐37 and TBX‐38 link GLP‐1/Notch signaling to mesoderm induction in C. elegans embryos. Development, 131, 1967–1978.15056620
Good, K. , Ciosk, R. , Nance, J. , Neves, A. , Hill, R. J. , & Priess, J. R. (2004). The T‐box transcription factors TBX‐37 and TBX‐38 link GLP‐1/Notch signaling to mesoderm induction in C. elegans embryos. Development, 131, 1967–1978.15056620, Good, K. , Ciosk, R. , Nance, J. , Neves, A. , Hill, R. J. , & Priess, J. R. (2004). The T‐box transcription factors TBX‐37 and TBX‐38 link GLP‐1/Notch signaling to mesoderm induction in C. elegans embryos. Development, 131, 1967–1978.15056620
Ray Hong, Metta Riebesell, D. Bumbarger, Steven Cook, Heather Carstensen, Tahmineh Sarpolaki, L. Cochella, Jessica Castrejon, Eduardo Moreno, Bogdan Sieriebriennikov, O. Hobert, R. Sommer (2019)
Evolution of neuronal anatomy and circuitry in two highly divergent nematode species
eLife, 8
Misako Okumura, Martin Wilecki, R. Sommer (2017)
Serotonin Drives Predatory Feeding Behavior via Synchronous Feeding Rhythms in the Nematode Pristionchus pacificus
G3: Genes|Genomes|Genetics, 7
A. Palmer (2004)
Symmetry Breaking and the Evolution of Development
Science, 306
B. Chitwood (1964)
Soil and Freshwater Nematodes.
Science, 144 3619
( Andrássy, I. (1962). Über den Mundstachel der Tylenchiden (Nematologische Notizen, 9). Acta Zoologica Hungarica, 8, 167–315.)
Andrássy, I. (1962). Über den Mundstachel der Tylenchiden (Nematologische Notizen, 9). Acta Zoologica Hungarica, 8, 167–315.
Andrássy, I. (1962). Über den Mundstachel der Tylenchiden (Nematologische Notizen, 9). Acta Zoologica Hungarica, 8, 167–315., Andrássy, I. (1962). Über den Mundstachel der Tylenchiden (Nematologische Notizen, 9). Acta Zoologica Hungarica, 8, 167–315.
( Chitwood, B. G. , & Chitwood, M. B. (1950). An introduction to nematology. Monumental Printing Company.)
Chitwood, B. G. , & Chitwood, M. B. (1950). An introduction to nematology. Monumental Printing Company.
Chitwood, B. G. , & Chitwood, M. B. (1950). An introduction to nematology. Monumental Printing Company., Chitwood, B. G. , & Chitwood, M. B. (1950). An introduction to nematology. Monumental Printing Company.
( Riebesell, M. , & Sommer, R. J. (2017). Three‐dimensional reconstruction of the pharyngeal gland cells in the predatory nematode Pristionchus pacificus . Journal of Morphology, 278, 1656–1666.28898441)
Riebesell, M. , & Sommer, R. J. (2017). Three‐dimensional reconstruction of the pharyngeal gland cells in the predatory nematode Pristionchus pacificus . Journal of Morphology, 278, 1656–1666.28898441
Riebesell, M. , & Sommer, R. J. (2017). Three‐dimensional reconstruction of the pharyngeal gland cells in the predatory nematode Pristionchus pacificus . Journal of Morphology, 278, 1656–1666.28898441, Riebesell, M. , & Sommer, R. J. (2017). Three‐dimensional reconstruction of the pharyngeal gland cells in the predatory nematode Pristionchus pacificus . Journal of Morphology, 278, 1656–1666.28898441
( Goodey, T. (1963). In J. B. Goodey (Ed.), Soil and freshwater nematodes. Methuen & Co.)
Goodey, T. (1963). In J. B. Goodey (Ed.), Soil and freshwater nematodes. Methuen & Co.
Goodey, T. (1963). In J. B. Goodey (Ed.), Soil and freshwater nematodes. Methuen & Co., Goodey, T. (1963). In J. B. Goodey (Ed.), Soil and freshwater nematodes. Methuen & Co.
( Spéder, P. , Ádám, G. , & Noselli, S. (2006). Type ID unconventional myosin controls left‐right asymmetry in Drosophila . Nature, 440, 803–807.16598259)
Spéder, P. , Ádám, G. , & Noselli, S. (2006). Type ID unconventional myosin controls left‐right asymmetry in Drosophila . Nature, 440, 803–807.16598259
Spéder, P. , Ádám, G. , & Noselli, S. (2006). Type ID unconventional myosin controls left‐right asymmetry in Drosophila . Nature, 440, 803–807.16598259, Spéder, P. , Ádám, G. , & Noselli, S. (2006). Type ID unconventional myosin controls left‐right asymmetry in Drosophila . Nature, 440, 803–807.16598259
( Giblin‐Davis, R. M. , Kanzaki, N. , De Ley, P. , Williams, D. S. , Schierenberg, E. , Ragsdale, E. J. , Zeng, Y. , & Center, B. J. (2010). Ultrastructure and life history of Myolaimus byersi n. sp. Myolaimina: Myolaimidae), a phoretic associate of the crane fly, Limonia schwarzi (Alexander) (Limoniidae), in Florida. Nematology, 12, 519–542.)
Giblin‐Davis, R. M. , Kanzaki, N. , De Ley, P. , Williams, D. S. , Schierenberg, E. , Ragsdale, E. J. , Zeng, Y. , & Center, B. J. (2010). Ultrastructure and life history of Myolaimus byersi n. sp. Myolaimina: Myolaimidae), a phoretic associate of the crane fly, Limonia schwarzi (Alexander) (Limoniidae), in Florida. Nematology, 12, 519–542.
Giblin‐Davis, R. M. , Kanzaki, N. , De Ley, P. , Williams, D. S. , Schierenberg, E. , Ragsdale, E. J. , Zeng, Y. , & Center, B. J. (2010). Ultrastructure and life history of Myolaimus byersi n. sp. Myolaimina: Myolaimidae), a phoretic associate of the crane fly, Limonia schwarzi (Alexander) (Limoniidae), in Florida. Nematology, 12, 519–542., Giblin‐Davis, R. M. , Kanzaki, N. , De Ley, P. , Williams, D. S. , Schierenberg, E. , Ragsdale, E. J. , Zeng, Y. , & Center, B. J. (2010). Ultrastructure and life history of Myolaimus byersi n. sp. Myolaimina: Myolaimidae), a phoretic associate of the crane fly, Limonia schwarzi (Alexander) (Limoniidae), in Florida. Nematology, 12, 519–542.
P. De Ley, M. Blaxter (2002)
The biology of nematodes
C. Dolinski, J. Baldwin (2003)
Fine Structure of the Stoma of Bunonema sp. and Teratorhabditis palmarum (Nematoda) and Its Phylogenetic Significance.
Journal of nematology, 35 3
(1936)
1936).The histology of nemic esophagi. V. The esophagi of Rhabditis, Anguillulina, and Aphelenchus
D. Bumbarger, Metta Riebesell (2015)
Anatomy and connectivity in the pharyngeal nervous system
A. Eizinger, R. Sommer (1997)
The homeotic gene lin-39 and the evolution of nematode epidermal cell fates.
Science, 278 5337
Bogdan Sieriebriennikov, Neel Prabh, Mohannad Dardiry, Hanh Witte, Waltraud Röseler, M. Kieninger, C. Rödelsperger, R. Sommer (2018)
A Developmental Switch Generating Phenotypic Plasticity Is Part of a Conserved Multi-gene Locus.
Cell reports, 23 10
D. Bumbarger, Metta Riebesell, C. Rödelsperger, R. Sommer (2013)
System-wide Rewiring Underlies Behavioral Differences in Predatory and Bacterial-Feeding Nematodes
Cell, 152
( Schaedel, O. N. , Gerisch, B. , Antebi, A. , & Sternberg, P. W. (2012). Hormonal signal amplification mediates environmental conditions during development and controls an irreversible commitment to adulthood. PLoS Biology, 10, e1001306.22505848)
Schaedel, O. N. , Gerisch, B. , Antebi, A. , & Sternberg, P. W. (2012). Hormonal signal amplification mediates environmental conditions during development and controls an irreversible commitment to adulthood. PLoS Biology, 10, e1001306.22505848
Schaedel, O. N. , Gerisch, B. , Antebi, A. , & Sternberg, P. W. (2012). Hormonal signal amplification mediates environmental conditions during development and controls an irreversible commitment to adulthood. PLoS Biology, 10, e1001306.22505848, Schaedel, O. N. , Gerisch, B. , Antebi, A. , & Sternberg, P. W. (2012). Hormonal signal amplification mediates environmental conditions during development and controls an irreversible commitment to adulthood. PLoS Biology, 10, e1001306.22505848
H. Hutter, R. Schnabel (1994)
glp-1 and inductions establishing embryonic axes in C. elegans.
Development, 120 7
(1994)
The phylogenetic systematics of freeliving nematodes
( Ragsdale, E. J. , Ngo, P. T. , Crum, J. , Ellisman, M. H. , & Baldwin, J. G. (2011). Reconstruction of the pharyngeal corpus of Aphelenchus avenae (Nematoda: Tylenchomorpha), with implications for phylogenetic congruence. Zoological Journal of the Linnean Society, 161, 1–30.)
Ragsdale, E. J. , Ngo, P. T. , Crum, J. , Ellisman, M. H. , & Baldwin, J. G. (2011). Reconstruction of the pharyngeal corpus of Aphelenchus avenae (Nematoda: Tylenchomorpha), with implications for phylogenetic congruence. Zoological Journal of the Linnean Society, 161, 1–30.
Ragsdale, E. J. , Ngo, P. T. , Crum, J. , Ellisman, M. H. , & Baldwin, J. G. (2011). Reconstruction of the pharyngeal corpus of Aphelenchus avenae (Nematoda: Tylenchomorpha), with implications for phylogenetic congruence. Zoological Journal of the Linnean Society, 161, 1–30., Ragsdale, E. J. , Ngo, P. T. , Crum, J. , Ellisman, M. H. , & Baldwin, J. G. (2011). Reconstruction of the pharyngeal corpus of Aphelenchus avenae (Nematoda: Tylenchomorpha), with implications for phylogenetic congruence. Zoological Journal of the Linnean Society, 161, 1–30.
( White, J. (1988). In W. B. Wood (Ed.), The nematode Caenorhabditis elegans (pp. 81–122). Cold Spring Harbor Laboratory Press.)
White, J. (1988). In W. B. Wood (Ed.), The nematode Caenorhabditis elegans (pp. 81–122). Cold Spring Harbor Laboratory Press.
White, J. (1988). In W. B. Wood (Ed.), The nematode Caenorhabditis elegans (pp. 81–122). Cold Spring Harbor Laboratory Press., White, J. (1988). In W. B. Wood (Ed.), The nematode Caenorhabditis elegans (pp. 81–122). Cold Spring Harbor Laboratory Press.
H. Hamada (2016)
Development of Left-Right Asymmetry
Bogdan Sieriebriennikov, Shuai Sun, James Lightfoot, Hanh Witte, Eduardo Moreno, C. Rödelsperger, R. Sommer (2020)
Conserved nuclear hormone receptors controlling a novel plastic trait target fast-evolving genes expressed in a single cell
PLoS Genetics, 16
( Burr, A. H. J. , & Baldwin, J. G. (2016). The nematode stoma: Homology of cell architecture with improved understanding by confocal microscopy of labeled cell boundaries. Journal of Morphology, 277, 1168–1186.27324817)
Burr, A. H. J. , & Baldwin, J. G. (2016). The nematode stoma: Homology of cell architecture with improved understanding by confocal microscopy of labeled cell boundaries. Journal of Morphology, 277, 1168–1186.27324817
Burr, A. H. J. , & Baldwin, J. G. (2016). The nematode stoma: Homology of cell architecture with improved understanding by confocal microscopy of labeled cell boundaries. Journal of Morphology, 277, 1168–1186.27324817, Burr, A. H. J. , & Baldwin, J. G. (2016). The nematode stoma: Homology of cell architecture with improved understanding by confocal microscopy of labeled cell boundaries. Journal of Morphology, 277, 1168–1186.27324817
( Hong, R. L. , Riebesell, M. , Bumbarger, D. J. , Cook, S. J. , Carstensen, H. R. , Sarpolaki, T. , Cochella, L. , Castrejon, J. , Moreno, E. , Sieriebriennikov, B. , Hobert, O. , & Sommer, R. J. (2019). Evolution of neuronal anatomy and circuitry in two highly divergent nematode species. eLife, 8, e47155.31526477)
Hong, R. L. , Riebesell, M. , Bumbarger, D. J. , Cook, S. J. , Carstensen, H. R. , Sarpolaki, T. , Cochella, L. , Castrejon, J. , Moreno, E. , Sieriebriennikov, B. , Hobert, O. , & Sommer, R. J. (2019). Evolution of neuronal anatomy and circuitry in two highly divergent nematode species. eLife, 8, e47155.31526477
Hong, R. L. , Riebesell, M. , Bumbarger, D. J. , Cook, S. J. , Carstensen, H. R. , Sarpolaki, T. , Cochella, L. , Castrejon, J. , Moreno, E. , Sieriebriennikov, B. , Hobert, O. , & Sommer, R. J. (2019). Evolution of neuronal anatomy and circuitry in two highly divergent nematode species. eLife, 8, e47155.31526477, Hong, R. L. , Riebesell, M. , Bumbarger, D. J. , Cook, S. J. , Carstensen, H. R. , Sarpolaki, T. , Cochella, L. , Castrejon, J. , Moreno, E. , Sieriebriennikov, B. , Hobert, O. , & Sommer, R. J. (2019). Evolution of neuronal anatomy and circuitry in two highly divergent nematode species. eLife, 8, e47155.31526477
( Bui, L. T. , Ivers, N. A. , & Ragsdale, E. J. (2018). A sulfotransferase dosage‐dependently regulates mouthpart dimorphism in the nematode Pristionchus pacificus . Nature Communications, 9, 4119.)
Bui, L. T. , Ivers, N. A. , & Ragsdale, E. J. (2018). A sulfotransferase dosage‐dependently regulates mouthpart dimorphism in the nematode Pristionchus pacificus . Nature Communications, 9, 4119.
Bui, L. T. , Ivers, N. A. , & Ragsdale, E. J. (2018). A sulfotransferase dosage‐dependently regulates mouthpart dimorphism in the nematode Pristionchus pacificus . Nature Communications, 9, 4119., Bui, L. T. , Ivers, N. A. , & Ragsdale, E. J. (2018). A sulfotransferase dosage‐dependently regulates mouthpart dimorphism in the nematode Pristionchus pacificus . Nature Communications, 9, 4119.
M. Herrmann, N. Kanzaki, C. Weiler, Kohta Yoshida, C. Rödelsperger, R. Sommer (2019)
Two new Species of Pristionchus (Nematoda: Diplogastridae) include the Gonochoristic Sister Species of P. fissidentatus
Journal of Nematology, 51
( Van Valen, L. (1962). A study of fluctuating asymmetry. Evolution, 16, 125–142.)
Van Valen, L. (1962). A study of fluctuating asymmetry. Evolution, 16, 125–142.
Van Valen, L. (1962). A study of fluctuating asymmetry. Evolution, 16, 125–142., Van Valen, L. (1962). A study of fluctuating asymmetry. Evolution, 16, 125–142.
D. Albertson, J. Thomson (1976)
The pharynx of Caenorhabditis elegans.
Philosophical transactions of the Royal Society of London. Series B, Biological sciences, 275 938
( Palmer, A. R. (2004). Symmetry breaking and the evolution of development. Science, 306, 828–833.15514148)
Palmer, A. R. (2004). Symmetry breaking and the evolution of development. Science, 306, 828–833.15514148
Palmer, A. R. (2004). Symmetry breaking and the evolution of development. Science, 306, 828–833.15514148, Palmer, A. R. (2004). Symmetry breaking and the evolution of development. Science, 306, 828–833.15514148
R. Sommer (2009)
The future of evo–devo: model systems and evolutionary theory
Nature Reviews Genetics, 10
Hutter H. (1994)
10.1242/dev.120.7.2051
Development, 120
R. Kuroda, B. Endo, Masanori Abe, Miho Shimizu (2009)
Chiral blastomere arrangement dictates zygotic left–right asymmetry pathway in snails
Nature, 462
A., Richard Palmer (1996)
From symmetry to asymmetry: phylogenetic patterns of asymmetry variation in animals and their evolutionary significance.
Proceedings of the National Academy of Sciences of the United States of America, 93 25
G. Poinar (1983)
The natural history of nematodes
L. Valen (1962)
A STUDY OF FLUCTUATING ASYMMETRY
Evolution, 16
Y. Zhang, J. Baldwin (2001)
Ultrastructure of the postcorpus of the esophagus of Teratocephalus lirellus (Teratocephalida) and its use for interpreting character evolution in Secernentea (Nematoda)
Canadian Journal of Zoology, 79
( Tingler, M. , Kurz, S. , Maerker, M. , Ott, T. , Fuhl, F. , Schweickert, A. , LeBlanc‐Straceski, J. M. , Noselli, S. , & Blum, M. (2018). A conserved role of the unconventional myosin 1d in laterality determination. Current Biology, 28, 810–816.29478852)
Tingler, M. , Kurz, S. , Maerker, M. , Ott, T. , Fuhl, F. , Schweickert, A. , LeBlanc‐Straceski, J. M. , Noselli, S. , & Blum, M. (2018). A conserved role of the unconventional myosin 1d in laterality determination. Current Biology, 28, 810–816.29478852
Tingler, M. , Kurz, S. , Maerker, M. , Ott, T. , Fuhl, F. , Schweickert, A. , LeBlanc‐Straceski, J. M. , Noselli, S. , & Blum, M. (2018). A conserved role of the unconventional myosin 1d in laterality determination. Current Biology, 28, 810–816.29478852, Tingler, M. , Kurz, S. , Maerker, M. , Ott, T. , Fuhl, F. , Schweickert, A. , LeBlanc‐Straceski, J. M. , Noselli, S. , & Blum, M. (2018). A conserved role of the unconventional myosin 1d in laterality determination. Current Biology, 28, 810–816.29478852
Y. Zhang (2000)
Ultrastructure of the post–corpus of Zeldia punctata (Cephalobina) for analysis of the evolutionary framework of nematodes related to Caenorhabditis elegans (Rhabditina)
Proceedings of the Royal Society of London. Series B: Biological Sciences, 267
Pascal Zaffarano, B. McDonald, C. Linde (2011)
Two new species
( Lightfoot, J. W. , Wilecki, M. , Rödelsperger, C. , Moreno, E. , Susoy, V. , Witte, H. , & Sommer, R. J. (2019). Small peptide‐mediated self‐recognition prevents cannibalism in predatory nematodes. Science, 364, 86–89.30948551)
Lightfoot, J. W. , Wilecki, M. , Rödelsperger, C. , Moreno, E. , Susoy, V. , Witte, H. , & Sommer, R. J. (2019). Small peptide‐mediated self‐recognition prevents cannibalism in predatory nematodes. Science, 364, 86–89.30948551
Lightfoot, J. W. , Wilecki, M. , Rödelsperger, C. , Moreno, E. , Susoy, V. , Witte, H. , & Sommer, R. J. (2019). Small peptide‐mediated self‐recognition prevents cannibalism in predatory nematodes. Science, 364, 86–89.30948551, Lightfoot, J. W. , Wilecki, M. , Rödelsperger, C. , Moreno, E. , Susoy, V. , Witte, H. , & Sommer, R. J. (2019). Small peptide‐mediated self‐recognition prevents cannibalism in predatory nematodes. Science, 364, 86–89.30948551
Michael Werner, Bogdan Sieriebriennikov, Tobias Loschko, S. Namdeo, Maša Lenuzzi, Mohannad Dardiry, Tess Renahan, Devansh Sharma, R. Sommer (2017)
Environmental influence on Pristionchus pacificus mouth form through different culture methods
Scientific Reports, 7
( Chiang, J. T. , Steciuk, M. , Shtonda, B. , & Avery, L. (2006). Evolution of pharyngeal behaviors and neuronal functions in free‐living soil nematodes. Journal of Experimental Biology, 209, 1859–1873.16651552)
Chiang, J. T. , Steciuk, M. , Shtonda, B. , & Avery, L. (2006). Evolution of pharyngeal behaviors and neuronal functions in free‐living soil nematodes. Journal of Experimental Biology, 209, 1859–1873.16651552
Chiang, J. T. , Steciuk, M. , Shtonda, B. , & Avery, L. (2006). Evolution of pharyngeal behaviors and neuronal functions in free‐living soil nematodes. Journal of Experimental Biology, 209, 1859–1873.16651552, Chiang, J. T. , Steciuk, M. , Shtonda, B. , & Avery, L. (2006). Evolution of pharyngeal behaviors and neuronal functions in free‐living soil nematodes. Journal of Experimental Biology, 209, 1859–1873.16651552
( Hutter, H. , & Schnabel, R. (1994). glp‐1 and inductions establishing embryonic axes in C. elegans . Development, 120, 2051–2064.7925009)
Hutter, H. , & Schnabel, R. (1994). glp‐1 and inductions establishing embryonic axes in C. elegans . Development, 120, 2051–2064.7925009
Hutter, H. , & Schnabel, R. (1994). glp‐1 and inductions establishing embryonic axes in C. elegans . Development, 120, 2051–2064.7925009, Hutter, H. , & Schnabel, R. (1994). glp‐1 and inductions establishing embryonic axes in C. elegans . Development, 120, 2051–2064.7925009
( Moreno, E. , Lightfoot, J. W. , Lenuzzi, M. , & Sommer, R. J. (2019). Cilia drive developmental plasticity and are essential for efficient prey detection in predatory nematodes. Proceedings of the Royal Society B: Biological Sciences, 286, 20191089.)
Moreno, E. , Lightfoot, J. W. , Lenuzzi, M. , & Sommer, R. J. (2019). Cilia drive developmental plasticity and are essential for efficient prey detection in predatory nematodes. Proceedings of the Royal Society B: Biological Sciences, 286, 20191089.
Moreno, E. , Lightfoot, J. W. , Lenuzzi, M. , & Sommer, R. J. (2019). Cilia drive developmental plasticity and are essential for efficient prey detection in predatory nematodes. Proceedings of the Royal Society B: Biological Sciences, 286, 20191089., Moreno, E. , Lightfoot, J. W. , Lenuzzi, M. , & Sommer, R. J. (2019). Cilia drive developmental plasticity and are essential for efficient prey detection in predatory nematodes. Proceedings of the Royal Society B: Biological Sciences, 286, 20191089.
( Ohkura, K. , Suzuki, N. , Ishihara, T. , & Katsura, I. (2003). SDF‐9, a protein tyrosine phosphatase‐like molecule, regulates the L3/dauer developmental decision through hormonal signaling in C. elegans . Development, 130, 3237–3248.12783794)
Ohkura, K. , Suzuki, N. , Ishihara, T. , & Katsura, I. (2003). SDF‐9, a protein tyrosine phosphatase‐like molecule, regulates the L3/dauer developmental decision through hormonal signaling in C. elegans . Development, 130, 3237–3248.12783794
Ohkura, K. , Suzuki, N. , Ishihara, T. , & Katsura, I. (2003). SDF‐9, a protein tyrosine phosphatase‐like molecule, regulates the L3/dauer developmental decision through hormonal signaling in C. elegans . Development, 130, 3237–3248.12783794, Ohkura, K. , Suzuki, N. , Ishihara, T. , & Katsura, I. (2003). SDF‐9, a protein tyrosine phosphatase‐like molecule, regulates the L3/dauer developmental decision through hormonal signaling in C. elegans . Development, 130, 3237–3248.12783794
Susoy V. (2015)
10.7554/eLife.05463
eLife, 4
( Wright, K. A. , & Thomson, J. N. (1981). The buccal capsule of Caenorhabditis elegans (Nematoda: Rhabditoidea): An ultrasatructural study. Canadian Journal of Zoology, 59, 1952–1961.)
Wright, K. A. , & Thomson, J. N. (1981). The buccal capsule of Caenorhabditis elegans (Nematoda: Rhabditoidea): An ultrasatructural study. Canadian Journal of Zoology, 59, 1952–1961.
Wright, K. A. , & Thomson, J. N. (1981). The buccal capsule of Caenorhabditis elegans (Nematoda: Rhabditoidea): An ultrasatructural study. Canadian Journal of Zoology, 59, 1952–1961., Wright, K. A. , & Thomson, J. N. (1981). The buccal capsule of Caenorhabditis elegans (Nematoda: Rhabditoidea): An ultrasatructural study. Canadian Journal of Zoology, 59, 1952–1961.
Erik Ragsdale, Phuong-Thi Ngo, J. Crum, Mark Ellisman, J. Baldwin (2011)
Reconstruction of the pharyngeal corpus of Aphelenchus avenae (Nematoda: Tylenchomorpha), with implications for phylogenetic congruence
Zoological Journal of the Linnean Society, 161
P. Ley, M. Velde, D. Mounport, P. Baujard, A. Coomans (1995)
Ultrastructure of the Stoma in Cephalobidae, Panagrolaimidae and Rhabditidae, With a Proposal for a Revised Stoma Terminology in Rhabditida (Nematoda)
Nematologica, 41
H. B. (1937)
An Introduction to Nematology
Nature, 139
Jing-Tzyh Chiang, M. Steciuk, B. Shtonda, L. Avery (2006)
Evolution of pharyngeal behaviors and neuronal functions in free-living soil nematodes
Journal of Experimental Biology, 209
( Namdeo, S. , Moreno, E. , Rödelsperger, C. , Baskaran, P. , Witte, H. , & Sommer, R. J. (2018). Two independent sulfation processes regulate mouth‐form plasticity in the nematode Pristionchus pacificus . Development, 145, dev66272.)
Namdeo, S. , Moreno, E. , Rödelsperger, C. , Baskaran, P. , Witte, H. , & Sommer, R. J. (2018). Two independent sulfation processes regulate mouth‐form plasticity in the nematode Pristionchus pacificus . Development, 145, dev66272.
Namdeo, S. , Moreno, E. , Rödelsperger, C. , Baskaran, P. , Witte, H. , & Sommer, R. J. (2018). Two independent sulfation processes regulate mouth‐form plasticity in the nematode Pristionchus pacificus . Development, 145, dev66272., Namdeo, S. , Moreno, E. , Rödelsperger, C. , Baskaran, P. , Witte, H. , & Sommer, R. J. (2018). Two independent sulfation processes regulate mouth‐form plasticity in the nematode Pristionchus pacificus . Development, 145, dev66272.
G. Reed (1956)
The pharynx.
Transactions - American Academy of Ophthalmology and Otolaryngology. American Academy of Ophthalmology and Otolaryngology, 60 3
W. Sudhaus (2011)
Phylogenetic systematisation and catalogue of paraphyletic "Rhabditidae" (Secernentea, Nematoda)
Journal of nematode morphology and systematics, 14
( Dolinski, C. , Borgonie, G. , Schnabel, R. , & Baldwin, J. G. (1998). Buccal capsule development as a consideration for phylogenetic analysis of Rhabditida (Nemata). Development Genes and Evolution, 208, 495–503.9799431)
Dolinski, C. , Borgonie, G. , Schnabel, R. , & Baldwin, J. G. (1998). Buccal capsule development as a consideration for phylogenetic analysis of Rhabditida (Nemata). Development Genes and Evolution, 208, 495–503.9799431
Dolinski, C. , Borgonie, G. , Schnabel, R. , & Baldwin, J. G. (1998). Buccal capsule development as a consideration for phylogenetic analysis of Rhabditida (Nemata). Development Genes and Evolution, 208, 495–503.9799431, Dolinski, C. , Borgonie, G. , Schnabel, R. , & Baldwin, J. G. (1998). Buccal capsule development as a consideration for phylogenetic analysis of Rhabditida (Nemata). Development Genes and Evolution, 208, 495–503.9799431
( Wilecki, M. , Lightfoot, J. W. , Susoy, V. , & Sommer, R. J. (2015). Predatory feeding behavior in Pristionchus nematodes is dependent on phenotypic plasticity and induced by serotonin. Journal of Experimental Biology, 218, 1306–1313.25767144)
Wilecki, M. , Lightfoot, J. W. , Susoy, V. , & Sommer, R. J. (2015). Predatory feeding behavior in Pristionchus nematodes is dependent on phenotypic plasticity and induced by serotonin. Journal of Experimental Biology, 218, 1306–1313.25767144
Wilecki, M. , Lightfoot, J. W. , Susoy, V. , & Sommer, R. J. (2015). Predatory feeding behavior in Pristionchus nematodes is dependent on phenotypic plasticity and induced by serotonin. Journal of Experimental Biology, 218, 1306–1313.25767144, Wilecki, M. , Lightfoot, J. W. , Susoy, V. , & Sommer, R. J. (2015). Predatory feeding behavior in Pristionchus nematodes is dependent on phenotypic plasticity and induced by serotonin. Journal of Experimental Biology, 218, 1306–1313.25767144
Vahan Serobyan, Erik Ragsdale, M. Müller, R. Sommer (2013)
Feeding plasticity in the nematode Pristionchus pacificus is influenced by sex and social context and is linked to developmental speed
Evolution & Development, 15
Kathryn Good, Rafal Ciosk, J. Nance, Alexandre Neves, R. Hill, J. Priess (2004)
The T-box transcription factors TBX-37 and TBX-38 link GLP-1/Notch signaling to mesoderm induction in C. elegans embryos
, 131
Erik Ragsdale, N. Kanzaki, M. Herrmann (2015)
Taxonomy and natural history: the genus Pristionchus
( Albertson, D. G. , & Thomson, J. N. (1976). The pharynx of Caenorhabditis elegans . Philosophical Transactions of the Royal Society of London B, 275, 299–325.)
Albertson, D. G. , & Thomson, J. N. (1976). The pharynx of Caenorhabditis elegans . Philosophical Transactions of the Royal Society of London B, 275, 299–325.
Albertson, D. G. , & Thomson, J. N. (1976). The pharynx of Caenorhabditis elegans . Philosophical Transactions of the Royal Society of London B, 275, 299–325., Albertson, D. G. , & Thomson, J. N. (1976). The pharynx of Caenorhabditis elegans . Philosophical Transactions of the Royal Society of London B, 275, 299–325.
N. Kanzaki, R. M. Giblin‐Davis (2015)
Pristionchus pacificus: A nematode model for comparative and evolutionary biology
C. Dolinski, G. Borgonie, R. Schnabel, J. Baldwin (1998)
Buccal capsule development as a consideration for phylogenetic analysis of Rhabditida (Nemata)
Development Genes and Evolution, 208
Syncytial nature of C. elegans pm4 and pm5 original to the present study
Erik Ragsdale, J. Baldwin (2010)
Resolving phylogenetic incongruence to articulate homology and phenotypic evolution: a case study from Nematoda
Proceedings of the Royal Society B: Biological Sciences, 277
( Dolinski, C. M. , & Baldwin, J. G. (2003). Fine structure of the stoma of Bunonema sp. and Teratorhabditis palmarum (Nematoda) and its phylogenetic significance. Journal of Nematology, 35, 244–251.19262757)
Dolinski, C. M. , & Baldwin, J. G. (2003). Fine structure of the stoma of Bunonema sp. and Teratorhabditis palmarum (Nematoda) and its phylogenetic significance. Journal of Nematology, 35, 244–251.19262757
Dolinski, C. M. , & Baldwin, J. G. (2003). Fine structure of the stoma of Bunonema sp. and Teratorhabditis palmarum (Nematoda) and its phylogenetic significance. Journal of Nematology, 35, 244–251.19262757, Dolinski, C. M. , & Baldwin, J. G. (2003). Fine structure of the stoma of Bunonema sp. and Teratorhabditis palmarum (Nematoda) and its phylogenetic significance. Journal of Nematology, 35, 244–251.19262757
( Bumbarger, D. J. , Riebesell, M. , Rodelsperger, C. , & Sommer, R. J. (2013). System‐wide rewiring underlies behavioral differences in predatory and bacterial‐feeding nematodes. Cell, 152, 109–119.23332749)
Bumbarger, D. J. , Riebesell, M. , Rodelsperger, C. , & Sommer, R. J. (2013). System‐wide rewiring underlies behavioral differences in predatory and bacterial‐feeding nematodes. Cell, 152, 109–119.23332749
Bumbarger, D. J. , Riebesell, M. , Rodelsperger, C. , & Sommer, R. J. (2013). System‐wide rewiring underlies behavioral differences in predatory and bacterial‐feeding nematodes. Cell, 152, 109–119.23332749, Bumbarger, D. J. , Riebesell, M. , Rodelsperger, C. , & Sommer, R. J. (2013). System‐wide rewiring underlies behavioral differences in predatory and bacterial‐feeding nematodes. Cell, 152, 109–119.23332749
( Van de Velde, M. C. , De Ley, P. , Mounport, D. , Baujard, P. , & Coomans, A. (1994). Ultrastructure of the buccal cavity and the cuticle of three Cephalobidae (Nematoda: Rhabditida). Nematologica, 40, 541–563.)
Van de Velde, M. C. , De Ley, P. , Mounport, D. , Baujard, P. , & Coomans, A. (1994). Ultrastructure of the buccal cavity and the cuticle of three Cephalobidae (Nematoda: Rhabditida). Nematologica, 40, 541–563.
Van de Velde, M. C. , De Ley, P. , Mounport, D. , Baujard, P. , & Coomans, A. (1994). Ultrastructure of the buccal cavity and the cuticle of three Cephalobidae (Nematoda: Rhabditida). Nematologica, 40, 541–563., Van de Velde, M. C. , De Ley, P. , Mounport, D. , Baujard, P. , & Coomans, A. (1994). Ultrastructure of the buccal cavity and the cuticle of three Cephalobidae (Nematoda: Rhabditida). Nematologica, 40, 541–563.
(1962)
Über den Mundstachel der Tylenchiden (Nematologische Notizen, 9)
James Lightfoot, Martin Wilecki, C. Rödelsperger, Eduardo Moreno, Vladislav Susoy, Hanh Witte, R. Sommer (2019)
Small peptide–mediated self-recognition prevents cannibalism in predatory nematodes
Science, 364
Metta Riebesell, R. Sommer (2017)
Three‐dimensional reconstruction of the pharyngeal gland cells in the predatory nematode Pristionchus pacificus
Journal of Morphology, 278
Fran Tabor (1978)
That Environmental Influence
Science News, 113
A. Burr, J. Baldwin (2016)
The nematode stoma: Homology of cell architecture with improved understanding by confocal microscopy of labeled cell boundaries
Journal of Morphology, 277
M. Velde, D. Mounport, A. Coomans, P. Ley, P. Baujard (1994)
Ultrastructure of the Buccal Cavity and the Cuticle of Three Cephalobidae (Nematoda: Rhabditida)
Nematologica, 40
L. Cochella, O. Hobert (2012)
Embryonic Priming of a miRNA Locus Predetermines Postmitotic Neuronal Left/Right Asymmetry in C. elegans
Cell, 151
( Sulston, J. E. , Schierenberg, E. , White, J. G. , & Thomson, J. N. (1983). The embryonic cell lineage of the nematode Caenorhabditis elegans . Developmental Biology, 100, 64–119.6684600)
Sulston, J. E. , Schierenberg, E. , White, J. G. , & Thomson, J. N. (1983). The embryonic cell lineage of the nematode Caenorhabditis elegans . Developmental Biology, 100, 64–119.6684600
Sulston, J. E. , Schierenberg, E. , White, J. G. , & Thomson, J. N. (1983). The embryonic cell lineage of the nematode Caenorhabditis elegans . Developmental Biology, 100, 64–119.6684600, Sulston, J. E. , Schierenberg, E. , White, J. G. , & Thomson, J. N. (1983). The embryonic cell lineage of the nematode Caenorhabditis elegans . Developmental Biology, 100, 64–119.6684600
(2022)
Comparative reconstruction
( Fürst von Lieven, A. , & Sudhaus, W. (2000). Comparative and functional morphology of the buccal cavity of Diplogastrina (Nematoda) and a first outline of the phylogeny of this taxon. Journal of Zoological Systematics and Evolutionary Research, 38, 37–63.)
Fürst von Lieven, A. , & Sudhaus, W. (2000). Comparative and functional morphology of the buccal cavity of Diplogastrina (Nematoda) and a first outline of the phylogeny of this taxon. Journal of Zoological Systematics and Evolutionary Research, 38, 37–63.
Fürst von Lieven, A. , & Sudhaus, W. (2000). Comparative and functional morphology of the buccal cavity of Diplogastrina (Nematoda) and a first outline of the phylogeny of this taxon. Journal of Zoological Systematics and Evolutionary Research, 38, 37–63., Fürst von Lieven, A. , & Sudhaus, W. (2000). Comparative and functional morphology of the buccal cavity of Diplogastrina (Nematoda) and a first outline of the phylogeny of this taxon. Journal of Zoological Systematics and Evolutionary Research, 38, 37–63.
( Lorenzen, S. (1994). The phylogenetic systematics of freeliving nematodes.)
Lorenzen, S. (1994). The phylogenetic systematics of freeliving nematodes.
Lorenzen, S. (1994). The phylogenetic systematics of freeliving nematodes., Lorenzen, S. (1994). The phylogenetic systematics of freeliving nematodes.
P. Ley, M. Blaxter (2002)
Systematic position and phylogeny
J. Baldwin, C. Eddleman, R. Giblin-Davis, D. Williams, J. Vida, W. Thomas (1997)
The buccal capsule of Aduncospiculum halicti (Nemata: Diplogasterina): an ultrastructural and molecular phylogenetic study
Canadian Journal of Zoology, 75
( Kuroda, R. , Endo, B. , Abe, M. , & Shimizu, M. (2009). Chiral blastomere arrangement dictates zygotic left‐right asymmetry pathway in snails. Nature, 462, 790–794.19940849)
Kuroda, R. , Endo, B. , Abe, M. , & Shimizu, M. (2009). Chiral blastomere arrangement dictates zygotic left‐right asymmetry pathway in snails. Nature, 462, 790–794.19940849
Kuroda, R. , Endo, B. , Abe, M. , & Shimizu, M. (2009). Chiral blastomere arrangement dictates zygotic left‐right asymmetry pathway in snails. Nature, 462, 790–794.19940849, Kuroda, R. , Endo, B. , Abe, M. , & Shimizu, M. (2009). Chiral blastomere arrangement dictates zygotic left‐right asymmetry pathway in snails. Nature, 462, 790–794.19940849
( Preibisch, S. , Saalfeld, S. , & Tomancak, P. (2009). Globally optimal stitching of tiled 3D microscopic image acquisitions. Bioinformatics, 25, 1463–1465.19346324)
Preibisch, S. , Saalfeld, S. , & Tomancak, P. (2009). Globally optimal stitching of tiled 3D microscopic image acquisitions. Bioinformatics, 25, 1463–1465.19346324
Preibisch, S. , Saalfeld, S. , & Tomancak, P. (2009). Globally optimal stitching of tiled 3D microscopic image acquisitions. Bioinformatics, 25, 1463–1465.19346324, Preibisch, S. , Saalfeld, S. , & Tomancak, P. (2009). Globally optimal stitching of tiled 3D microscopic image acquisitions. Bioinformatics, 25, 1463–1465.19346324
Y. Zhang, J. Baldwin (1999)
Ultrastructure of the Esophagus of Diplenteron sp. (Diplogasterida) to Test Hypotheses of Homology with Rhabditida and Tylenchida.
Journal of nematology, 31 1
R. Hill, P. Sternberg (1992)
The gene lin-3 encodes an inductive signal for vulval development in C. elegans
Nature, 358
( Levin, M. , Johnson, R. L. , Sterna, C. D. , Kuehn, M. , & Tabin, C. (1995). A molecular pathway determining left‐right asymmetry in chick embryogenesis. Cell, 82, 803–814.7671308)
Levin, M. , Johnson, R. L. , Sterna, C. D. , Kuehn, M. , & Tabin, C. (1995). A molecular pathway determining left‐right asymmetry in chick embryogenesis. Cell, 82, 803–814.7671308
Levin, M. , Johnson, R. L. , Sterna, C. D. , Kuehn, M. , & Tabin, C. (1995). A molecular pathway determining left‐right asymmetry in chick embryogenesis. Cell, 82, 803–814.7671308, Levin, M. , Johnson, R. L. , Sterna, C. D. , Kuehn, M. , & Tabin, C. (1995). A molecular pathway determining left‐right asymmetry in chick embryogenesis. Cell, 82, 803–814.7671308
( Avery, L. , & You, Y. J. (2012). C. elegans feeding, The C. elegans community. The online review of C. elegans biology. WormBook. http://wormbook.org )
Avery, L. , & You, Y. J. (2012). C. elegans feeding, The C. elegans community. The online review of C. elegans biology. WormBook. http://wormbook.org
Avery, L. , & You, Y. J. (2012). C. elegans feeding, The C. elegans community. The online review of C. elegans biology. WormBook. http://wormbook.org , Avery, L. , & You, Y. J. (2012). C. elegans feeding, The C. elegans community. The online review of C. elegans biology. WormBook. http://wormbook.org
( Eisenmann, D. M. , Maloof, J. N. , Simske, J. S. , Kenyon, C. , & Kim, S. K. (1998). The β‐catenin homolog BAR‐1 and LET‐60 Ras coordinately regulate the Hox gene lin‐39 during Caenorhabditis elegans vulval development. Development, 125, 3667–3680.9716532)
Eisenmann, D. M. , Maloof, J. N. , Simske, J. S. , Kenyon, C. , & Kim, S. K. (1998). The β‐catenin homolog BAR‐1 and LET‐60 Ras coordinately regulate the Hox gene lin‐39 during Caenorhabditis elegans vulval development. Development, 125, 3667–3680.9716532
Eisenmann, D. M. , Maloof, J. N. , Simske, J. S. , Kenyon, C. , & Kim, S. K. (1998). The β‐catenin homolog BAR‐1 and LET‐60 Ras coordinately regulate the Hox gene lin‐39 during Caenorhabditis elegans vulval development. Development, 125, 3667–3680.9716532, Eisenmann, D. M. , Maloof, J. N. , Simske, J. S. , Kenyon, C. , & Kim, S. K. (1998). The β‐catenin homolog BAR‐1 and LET‐60 Ras coordinately regulate the Hox gene lin‐39 during Caenorhabditis elegans vulval development. Development, 125, 3667–3680.9716532
W. Ludwig (1932)
Das Rechts-Links-Problem im Tierreich und beim Menschen
Journal of Nervous and Mental Disease, 78
( Serobyan, V. , Ragsdale, E. J. , Müller, M. R. , & Sommer, R. J. (2013). Adaptive value of a predatory mouth‐form in a dimorphic nematode. Proceedings of the Royal Society B: Biological Sciences, 281, 20141334–20141370.)
Serobyan, V. , Ragsdale, E. J. , Müller, M. R. , & Sommer, R. J. (2013). Adaptive value of a predatory mouth‐form in a dimorphic nematode. Proceedings of the Royal Society B: Biological Sciences, 281, 20141334–20141370.
Serobyan, V. , Ragsdale, E. J. , Müller, M. R. , & Sommer, R. J. (2013). Adaptive value of a predatory mouth‐form in a dimorphic nematode. Proceedings of the Royal Society B: Biological Sciences, 281, 20141334–20141370., Serobyan, V. , Ragsdale, E. J. , Müller, M. R. , & Sommer, R. J. (2013). Adaptive value of a predatory mouth‐form in a dimorphic nematode. Proceedings of the Royal Society B: Biological Sciences, 281, 20141334–20141370.
(2012)
C . elegans feeding , The C . elegans community . The online review of C . elegans biology
( Zhang, Y. C. , & Baldwin, J. G. (2001). Ultrastructure of the postcorpus of the esophagus of Teratocephalus lirellus (Teratocephalida) and its use for interpreting character evolution in Secernentea (Nematoda). Canadian Journal of Zoology, 79, 16–25.)
Zhang, Y. C. , & Baldwin, J. G. (2001). Ultrastructure of the postcorpus of the esophagus of Teratocephalus lirellus (Teratocephalida) and its use for interpreting character evolution in Secernentea (Nematoda). Canadian Journal of Zoology, 79, 16–25.
Zhang, Y. C. , & Baldwin, J. G. (2001). Ultrastructure of the postcorpus of the esophagus of Teratocephalus lirellus (Teratocephalida) and its use for interpreting character evolution in Secernentea (Nematoda). Canadian Journal of Zoology, 79, 16–25., Zhang, Y. C. , & Baldwin, J. G. (2001). Ultrastructure of the postcorpus of the esophagus of Teratocephalus lirellus (Teratocephalida) and its use for interpreting character evolution in Secernentea (Nematoda). Canadian Journal of Zoology, 79, 16–25.
(1936)
The histology of nemic
Neelanjan Bose, A. Ogawa, Stephan Reuss, Joshua Yim, Erik Ragsdale, R. Sommer, F. Schroeder (2012)
Complex small-molecule architectures regulate phenotypic plasticity in a nematode.
Angewandte Chemie, 51 50
( Shepherd, A. M. , Clark, S. A. , & Hooper, D. J. (1980). Structure of the anterior alimentary tract of Aphelenchoides blastophthorus (Nematoda: Tylenchida, Aphelenchina). Nematologica, 26, 313–357.)
Shepherd, A. M. , Clark, S. A. , & Hooper, D. J. (1980). Structure of the anterior alimentary tract of Aphelenchoides blastophthorus (Nematoda: Tylenchida, Aphelenchina). Nematologica, 26, 313–357.
Shepherd, A. M. , Clark, S. A. , & Hooper, D. J. (1980). Structure of the anterior alimentary tract of Aphelenchoides blastophthorus (Nematoda: Tylenchida, Aphelenchina). Nematologica, 26, 313–357., Shepherd, A. M. , Clark, S. A. , & Hooper, D. J. (1980). Structure of the anterior alimentary tract of Aphelenchoides blastophthorus (Nematoda: Tylenchida, Aphelenchina). Nematologica, 26, 313–357.
( Herrmann, M. , Kanzaki, N. , Weiler, C. , Yoshida, K. , Rödelsperger, C. , & Sommer, R. J. (2019). Two new species of Pristionchus (Nematoda: Diplogastridae) include the gonochoristic sister species of P. fissidentatus . Journal of Nematology, 51, 1–14.)
Herrmann, M. , Kanzaki, N. , Weiler, C. , Yoshida, K. , Rödelsperger, C. , & Sommer, R. J. (2019). Two new species of Pristionchus (Nematoda: Diplogastridae) include the gonochoristic sister species of P. fissidentatus . Journal of Nematology, 51, 1–14.
Herrmann, M. , Kanzaki, N. , Weiler, C. , Yoshida, K. , Rödelsperger, C. , & Sommer, R. J. (2019). Two new species of Pristionchus (Nematoda: Diplogastridae) include the gonochoristic sister species of P. fissidentatus . Journal of Nematology, 51, 1–14., Herrmann, M. , Kanzaki, N. , Weiler, C. , Yoshida, K. , Rödelsperger, C. , & Sommer, R. J. (2019). Two new species of Pristionchus (Nematoda: Diplogastridae) include the gonochoristic sister species of P. fissidentatus . Journal of Nematology, 51, 1–14.
( Steiner, G. (1933). The nematode Cylindrogaster longistoma (Stefanski) Goodey, and its relationship. Journal of Parasitology, 20, 66–69.)
Steiner, G. (1933). The nematode Cylindrogaster longistoma (Stefanski) Goodey, and its relationship. Journal of Parasitology, 20, 66–69.
Steiner, G. (1933). The nematode Cylindrogaster longistoma (Stefanski) Goodey, and its relationship. Journal of Parasitology, 20, 66–69., Steiner, G. (1933). The nematode Cylindrogaster longistoma (Stefanski) Goodey, and its relationship. Journal of Parasitology, 20, 66–69.
( Eizinger, A. , & Sommer, R. J. (1997). The homeotic gene lin‐39 and the evolution of nematode epidermal cell fates. Science, 278, 452–455.9334302)
Eizinger, A. , & Sommer, R. J. (1997). The homeotic gene lin‐39 and the evolution of nematode epidermal cell fates. Science, 278, 452–455.9334302
Eizinger, A. , & Sommer, R. J. (1997). The homeotic gene lin‐39 and the evolution of nematode epidermal cell fates. Science, 278, 452–455.9334302, Eizinger, A. , & Sommer, R. J. (1997). The homeotic gene lin‐39 and the evolution of nematode epidermal cell fates. Science, 278, 452–455.9334302
( White, J. G. , Southgate, E. , Thomson, J. N. , & Brenner, S. (1986). The structure of the nervous system of Caenorhabditis elegans . Philosophical Transactions of the Royal Society of London B, 341, 1–340.)
White, J. G. , Southgate, E. , Thomson, J. N. , & Brenner, S. (1986). The structure of the nervous system of Caenorhabditis elegans . Philosophical Transactions of the Royal Society of London B, 341, 1–340.
White, J. G. , Southgate, E. , Thomson, J. N. , & Brenner, S. (1986). The structure of the nervous system of Caenorhabditis elegans . Philosophical Transactions of the Royal Society of London B, 341, 1–340., White, J. G. , Southgate, E. , Thomson, J. N. , & Brenner, S. (1986). The structure of the nervous system of Caenorhabditis elegans . Philosophical Transactions of the Royal Society of London B, 341, 1–340.
W. Ludwig (1932)
Das Rechts-Links-Problem im Tierreich und beim Menschen: Mit einem Anhang Rechts-Links-Merkmale der Pflanzen
P. Spéder, G. Ádám, S. Noselli (2006)
Type ID unconventional myosin controls left–right asymmetry in Drosophila
Nature, 440
( Okumura, M. , Wilecki, M. , & Sommer, R. J. (2017). Serotonin drives predatory feeding behavior via synchronous feeding rhythms in the nematode Pristionchus pacificus . G3: Genes, Genomes, Genetics, 7, 3745–3755.28903981)
Okumura, M. , Wilecki, M. , & Sommer, R. J. (2017). Serotonin drives predatory feeding behavior via synchronous feeding rhythms in the nematode Pristionchus pacificus . G3: Genes, Genomes, Genetics, 7, 3745–3755.28903981
Okumura, M. , Wilecki, M. , & Sommer, R. J. (2017). Serotonin drives predatory feeding behavior via synchronous feeding rhythms in the nematode Pristionchus pacificus . G3: Genes, Genomes, Genetics, 7, 3745–3755.28903981, Okumura, M. , Wilecki, M. , & Sommer, R. J. (2017). Serotonin drives predatory feeding behavior via synchronous feeding rhythms in the nematode Pristionchus pacificus . G3: Genes, Genomes, Genetics, 7, 3745–3755.28903981
White J. G. (1986)
10.1098/rstb.1986.0056
Philosophical Transactions of the Royal Society of London B, 341
Gilberto Bento, A. Ogawa, R. Sommer (2010)
Co-option of the hormone-signalling module dafachronic acid–DAF-12 in nematode evolution
Nature, 466
Erik Ragsdale, M. Müller, C. Rödelsperger, R. Sommer (2013)
A Developmental Switch Coupled to the Evolution of Plasticity Acts through a Sulfatase
Cell, 155
S. Namdeo, Eduardo Moreno, C. Rödelsperger, Praveen Baskaran, Hanh Witte, R. Sommer (2018)
Two independent sulfation processes regulate mouth-form plasticity in the nematode Pristionchus pacificus
Development, 145
J. Baldwin, R. Souza, C. Dolinski (2001)
Fine structure and phylogenetic significance of a muscular basal bulb in Basiria gracilis Thorne, 1969 (Nematoda: Tylenchidae)
Nematology, 3
Melanie Tingler, Sabrina Kurz, M. Maerker, Tim Ott, Franziska Fuhl, A. Schweickert, J. Leblanc-Straceski, S. Noselli, M. Blum (2018)
A Conserved Role of the Unconventional Myosin 1d in Laterality Determination
Current Biology, 28
( Hobert, O. (2014). Development of left/right asymmetry in the Caenorhabditis elegans nervous system: From zygote to postmitotic neuron. Genesis, 52, 528–543.24510690)
Hobert, O. (2014). Development of left/right asymmetry in the Caenorhabditis elegans nervous system: From zygote to postmitotic neuron. Genesis, 52, 528–543.24510690
Hobert, O. (2014). Development of left/right asymmetry in the Caenorhabditis elegans nervous system: From zygote to postmitotic neuron. Genesis, 52, 528–543.24510690, Hobert, O. (2014). Development of left/right asymmetry in the Caenorhabditis elegans nervous system: From zygote to postmitotic neuron. Genesis, 52, 528–543.24510690
A. Smythe (2015)
Evolution of Feeding Structures in the Marine Nematode Order Enoplida.
Integrative and comparative biology, 55 2
(1933)
The nematode Cylindrogaster longistoma (Stefanski) Goodey, and its relationship
M. Kieninger, N. Ivers, C. Rödelsperger, Gabriel Markov, R. Sommer, Erik Ragsdale (2016)
The Nuclear Hormone Receptor NHR-40 Acts Downstream of the Sulfatase EUD-1 as Part of a Developmental Plasticity Switch in Pristionchus
Current Biology, 26
S. Preibisch, S. Saalfeld, P. Tomančák (2009)
Globally optimal stitching of tiled 3D microscopic image acquisitions
Bioinformatics, 25
Martin Wilecki, James Lightfoot, Vladislav Susoy, R. Sommer (2015)
Predatory feeding behaviour in Pristionchus nematodes is dependent on phenotypic plasticity and induced by serotonin
The Journal of Experimental Biology, 218
S. Vangestel, Wouter Houthoofd, W. Bert, G. Borgonie (2008)
The early embryonic development of the satellite organism Pristionchus pacificus: differences and similarities with Caenorhabditis elegans
Nematology, 10
J. Sulston, H. Horvitz (1977)
Post-embryonic cell lineages of the nematode, Caenorhabditis elegans.
Developmental biology, 56 1
( Hill, R. J. , & Sternberg, P. W. (1992). The gene lin‐3 encodes an inductive signal for vulval development in C. elegans . Nature, 358, 470–476.1641037)
Hill, R. J. , & Sternberg, P. W. (1992). The gene lin‐3 encodes an inductive signal for vulval development in C. elegans . Nature, 358, 470–476.1641037
Hill, R. J. , & Sternberg, P. W. (1992). The gene lin‐3 encodes an inductive signal for vulval development in C. elegans . Nature, 358, 470–476.1641037, Hill, R. J. , & Sternberg, P. W. (1992). The gene lin‐3 encodes an inductive signal for vulval development in C. elegans . Nature, 358, 470–476.1641037
L. Avery, Y. J. You (2012)
The C. elegans community
A. Cardona, S. Saalfeld, J. Schindelin, Ignacio Arganda-Carreras, S. Preibisch, M. Longair, P. Tomančák, V. Hartenstein, R. Douglas (2012)
TrakEM2 Software for Neural Circuit Reconstruction
PLoS ONE, 7
( Vangestel, S. , Houthoofd, W. , Bert, W. , & Borgonie, G. (2008). The early embryonic development of the satellite organism Pristionchus pacificus: Differences and similarities with Caenorhabditis elegans . Nematology, 10, 301–312.)
Vangestel, S. , Houthoofd, W. , Bert, W. , & Borgonie, G. (2008). The early embryonic development of the satellite organism Pristionchus pacificus: Differences and similarities with Caenorhabditis elegans . Nematology, 10, 301–312.
Vangestel, S. , Houthoofd, W. , Bert, W. , & Borgonie, G. (2008). The early embryonic development of the satellite organism Pristionchus pacificus: Differences and similarities with Caenorhabditis elegans . Nematology, 10, 301–312., Vangestel, S. , Houthoofd, W. , Bert, W. , & Borgonie, G. (2008). The early embryonic development of the satellite organism Pristionchus pacificus: Differences and similarities with Caenorhabditis elegans . Nematology, 10, 301–312.
( Sternberg, P. W. , & Horvitz, H. R. (1989). The combined action of two intercellular signaling pathways specifies three cell fates during vulval induction in C. elegans . Cell, 58, 679–693.2548732)
Sternberg, P. W. , & Horvitz, H. R. (1989). The combined action of two intercellular signaling pathways specifies three cell fates during vulval induction in C. elegans . Cell, 58, 679–693.2548732
Sternberg, P. W. , & Horvitz, H. R. (1989). The combined action of two intercellular signaling pathways specifies three cell fates during vulval induction in C. elegans . Cell, 58, 679–693.2548732, Sternberg, P. W. , & Horvitz, H. R. (1989). The combined action of two intercellular signaling pathways specifies three cell fates during vulval induction in C. elegans . Cell, 58, 679–693.2548732
A. Lieven, W. Sudhaus (2000)
Comparative and functional morphology of the buccal cavity of Diplogastrina (Nematoda) and a first outline of the phylogeny of this taxon
Journal of Zoological Systematics and Evolutionary Research, 38
( Bose, N. , Ogawa, A. , Von Reuss, S. H. , Yim, J. J. , Ragsdale, E. J. , Sommer, R. J. , & Schroeder, F. C. (2012). Complex small‐molecule architectures regulate phenotypic plasticity in a nematode. Angewandte Chemie, 51, 12438–12443.23161728)
Bose, N. , Ogawa, A. , Von Reuss, S. H. , Yim, J. J. , Ragsdale, E. J. , Sommer, R. J. , & Schroeder, F. C. (2012). Complex small‐molecule architectures regulate phenotypic plasticity in a nematode. Angewandte Chemie, 51, 12438–12443.23161728
Bose, N. , Ogawa, A. , Von Reuss, S. H. , Yim, J. J. , Ragsdale, E. J. , Sommer, R. J. , & Schroeder, F. C. (2012). Complex small‐molecule architectures regulate phenotypic plasticity in a nematode. Angewandte Chemie, 51, 12438–12443.23161728, Bose, N. , Ogawa, A. , Von Reuss, S. H. , Yim, J. J. , Ragsdale, E. J. , Sommer, R. J. , & Schroeder, F. C. (2012). Complex small‐molecule architectures regulate phenotypic plasticity in a nematode. Angewandte Chemie, 51, 12438–12443.23161728
( Kieninger, M. R. , Ivers, N. A. , Rödelsperger, C. , Markov, G. V. , Sommer, R. J. , & Ragsdale, E. J. (2016). The nuclear hormone receptor NHR‐40 acts downstream of the sulfatase EUD‐1 as part of a developmental plasticity switch in Pristionchus . Current Biology, 26, 2174–2179.27451902)
Kieninger, M. R. , Ivers, N. A. , Rödelsperger, C. , Markov, G. V. , Sommer, R. J. , & Ragsdale, E. J. (2016). The nuclear hormone receptor NHR‐40 acts downstream of the sulfatase EUD‐1 as part of a developmental plasticity switch in Pristionchus . Current Biology, 26, 2174–2179.27451902
Kieninger, M. R. , Ivers, N. A. , Rödelsperger, C. , Markov, G. V. , Sommer, R. J. , & Ragsdale, E. J. (2016). The nuclear hormone receptor NHR‐40 acts downstream of the sulfatase EUD‐1 as part of a developmental plasticity switch in Pristionchus . Current Biology, 26, 2174–2179.27451902, Kieninger, M. R. , Ivers, N. A. , Rödelsperger, C. , Markov, G. V. , Sommer, R. J. , & Ragsdale, E. J. (2016). The nuclear hormone receptor NHR‐40 acts downstream of the sulfatase EUD‐1 as part of a developmental plasticity switch in Pristionchus . Current Biology, 26, 2174–2179.27451902
( Kimura, K. D. , Riddle, D. L. , & Ruvkun, G. (2011). The C. elegans DAF‐2 insulin‐like receptor is abundantly expressed in the nervous system and regulated by nutritional status. Cold Spring Harbor Symposia on Quantitative Biology, 76, 113–120.22123849)
Kimura, K. D. , Riddle, D. L. , & Ruvkun, G. (2011). The C. elegans DAF‐2 insulin‐like receptor is abundantly expressed in the nervous system and regulated by nutritional status. Cold Spring Harbor Symposia on Quantitative Biology, 76, 113–120.22123849
Kimura, K. D. , Riddle, D. L. , & Ruvkun, G. (2011). The C. elegans DAF‐2 insulin‐like receptor is abundantly expressed in the nervous system and regulated by nutritional status. Cold Spring Harbor Symposia on Quantitative Biology, 76, 113–120.22123849, Kimura, K. D. , Riddle, D. L. , & Ruvkun, G. (2011). The C. elegans DAF‐2 insulin‐like receptor is abundantly expressed in the nervous system and regulated by nutritional status. Cold Spring Harbor Symposia on Quantitative Biology, 76, 113–120.22123849
O. Hobert (2014)
Development of left/right asymmetry in the Caenorhabditis elegans nervous system: From zygote to postmitotic neuron
genesis, 52
( Priess, J. R. (2005). Notch signaling in the C. elegans embryo (June 25, 2005). In WormBook: The online review of C. elegans biology. http://wormbook.org )
Priess, J. R. (2005). Notch signaling in the C. elegans embryo (June 25, 2005). In WormBook: The online review of C. elegans biology. http://wormbook.org
Priess, J. R. (2005). Notch signaling in the C. elegans embryo (June 25, 2005). In WormBook: The online review of C. elegans biology. http://wormbook.org , Priess, J. R. (2005). Notch signaling in the C. elegans embryo (June 25, 2005). In WormBook: The online review of C. elegans biology. http://wormbook.org
( Sieriebriennikov, B. , Sun, S. , Lightfoot, J. W. , Witte, H. , Moreno, E. , Rödelsperger, C. , & Sommer, R. J. (2020). Conserved nuclear hormone receptors controlling a novel plastic trait target fast‐evolving genes expressed in a single cell. PLoS Genetics, 16, e1008687.32282814)
Sieriebriennikov, B. , Sun, S. , Lightfoot, J. W. , Witte, H. , Moreno, E. , Rödelsperger, C. , & Sommer, R. J. (2020). Conserved nuclear hormone receptors controlling a novel plastic trait target fast‐evolving genes expressed in a single cell. PLoS Genetics, 16, e1008687.32282814
Sieriebriennikov, B. , Sun, S. , Lightfoot, J. W. , Witte, H. , Moreno, E. , Rödelsperger, C. , & Sommer, R. J. (2020). Conserved nuclear hormone receptors controlling a novel plastic trait target fast‐evolving genes expressed in a single cell. PLoS Genetics, 16, e1008687.32282814, Sieriebriennikov, B. , Sun, S. , Lightfoot, J. W. , Witte, H. , Moreno, E. , Rödelsperger, C. , & Sommer, R. J. (2020). Conserved nuclear hormone receptors controlling a novel plastic trait target fast‐evolving genes expressed in a single cell. PLoS Genetics, 16, e1008687.32282814
J. Priess (2005)
Notch signaling in the C. elegans embryo.
WormBook : the online review of C. elegans biology
( Kanzaki, N. , & Giblin‐Davis, R. M. (2015). Diplogastrid systematics and phylogeny. In R. J. Sommer (Ed.), Pristionchus pacificus: A nematode model for comparative and evolutionary biology (pp. 43–76). Brill.)
Kanzaki, N. , & Giblin‐Davis, R. M. (2015). Diplogastrid systematics and phylogeny. In R. J. Sommer (Ed.), Pristionchus pacificus: A nematode model for comparative and evolutionary biology (pp. 43–76). Brill.
Kanzaki, N. , & Giblin‐Davis, R. M. (2015). Diplogastrid systematics and phylogeny. In R. J. Sommer (Ed.), Pristionchus pacificus: A nematode model for comparative and evolutionary biology (pp. 43–76). Brill., Kanzaki, N. , & Giblin‐Davis, R. M. (2015). Diplogastrid systematics and phylogeny. In R. J. Sommer (Ed.), Pristionchus pacificus: A nematode model for comparative and evolutionary biology (pp. 43–76). Brill.
( Werner, M. S. , Sieriebriennikov, B. , Loschko, T. , Namdeo, S. , Lenuzzi, M. , Dardiry, M. , Renahan, T. , Sharma, D. R. , & Sommer, R. J. (2017). Environmental influence on Pristionchus pacificus mouth form through different culture methods. Scientific Reports, 7, 7207.28775277)
Werner, M. S. , Sieriebriennikov, B. , Loschko, T. , Namdeo, S. , Lenuzzi, M. , Dardiry, M. , Renahan, T. , Sharma, D. R. , & Sommer, R. J. (2017). Environmental influence on Pristionchus pacificus mouth form through different culture methods. Scientific Reports, 7, 7207.28775277
Werner, M. S. , Sieriebriennikov, B. , Loschko, T. , Namdeo, S. , Lenuzzi, M. , Dardiry, M. , Renahan, T. , Sharma, D. R. , & Sommer, R. J. (2017). Environmental influence on Pristionchus pacificus mouth form through different culture methods. Scientific Reports, 7, 7207.28775277, Werner, M. S. , Sieriebriennikov, B. , Loschko, T. , Namdeo, S. , Lenuzzi, M. , Dardiry, M. , Renahan, T. , Sharma, D. R. , & Sommer, R. J. (2017). Environmental influence on Pristionchus pacificus mouth form through different culture methods. Scientific Reports, 7, 7207.28775277
L. Bui, N. Ivers, Erik Ragsdale (2018)
A sulfotransferase dosage-dependently regulates mouthpart polyphenism in the nematode Pristionchus pacificus
Nature Communications, 9
R. Giblin-Davis, N. Kanzaki, P. Ley, Donna Williams, E. Schierenberg, Erik Ragsdale, Yongsan Zeng (2010)
Ultrastructure and life history of Myolaimus byersi n. sp. (Myolaimina: Myolaimidae), a phoretic associate of the crane fly, Limonia schwarzi (Alexander) (Limoniidae), in Florida
Nematology, 12
( Hall, D. H. , & Altun, Z. (2008). C. elegans atlas. Cold Spring Harbor Laboratory Press.)
Hall, D. H. , & Altun, Z. (2008). C. elegans atlas. Cold Spring Harbor Laboratory Press.
Hall, D. H. , & Altun, Z. (2008). C. elegans atlas. Cold Spring Harbor Laboratory Press., Hall, D. H. , & Altun, Z. (2008). C. elegans atlas. Cold Spring Harbor Laboratory Press.
Eisenmann D. M. (1998)
10.1242/dev.125.18.3667
Development, 125
Erik Ragsdale, N. Ivers (2016)
Specialization of a polyphenism switch gene following serial duplications in Pristionchus nematodes
bioRxiv
M. Levin, Randy Johnson, C. Sterna, M. Kuehn, C. Tabin (1995)
A molecular pathway determining left-right asymmetry in chick embryogenesis
Cell, 82
P. Sternberg, H. Horvitz (1989)
The combined action of two intercellular signaling pathways specifies three cell fates during vulval induction in C. elegans
Cell, 58

Publisher: Wiley
Copyright: © 2022 Wiley Periodicals LLC
ISSN: 1520-541X
eISSN: 1525-142X
DOI: 10.1111/ede.12397
Publisher site: See Article on Publisher Site

Abstract

Pristionchus pacificus is a nematode model for the developmental genetics of morphological polyphenism, especially at the level of individual cells. Morphological polyphenism in this species includes an evolutionary novelty, moveable teeth, which have enabled predatory feeding in this species and others in its family (Diplogastridae). From transmission electron micrographs of serial thin sections through an adult hermaphrodite of P. pacificus, we three‐dimensionally reconstructed all epithelial and myoepithelial cells and syncytia, corresponding to 74 nuclei, of its face, mouth, and pharynx. We found that the epithelia that produce the predatory morphology of P. pacificus are identical to Caenorhabditis elegans in the number of cell classes and nuclei. However, differences in cell form, spatial relationships, and nucleus position correlate with gross morphological differences from C. elegans and outgroups. Moreover, we identified fine‐structural features, especially in the anteriormost pharyngeal muscles, that underlie the conspicuous, left‐right asymmetry that characterizes the P. pacificus feeding apparatus. Our reconstruction provides an anatomical map for studying the genetics of polyphenism, feeding behavior, and the development of novel form in a satellite model to C. elegans.

Journal

Evolution and Development – Wiley

Published: Mar 1, 2022

Keywords: bilateral asymmetry; Caenorhabditis elegans; developmental plasticity; fine structure; novelty; transmission electron microscopy

Get 20M+ Full-Text Papers For Less Than $1.50/day. Start a 14-Day Trial for You or Your Team.

Learn More →

Comparative reconstruction of the predatory feeding structures of the polyphenic nematode Pristionchus pacificus

Comparative reconstruction of the predatory feeding structures of the polyphenic nematode Pristionchus pacificus

Get 20M+ Full-Text Papers For Less Than $1.50/day. Start a 14-Day Trial for You or Your Team.

Learn More →

Comparative reconstruction of the predatory feeding structures of the polyphenic nematode Pristionchus pacificus

Comparative reconstruction of the predatory feeding structures of the polyphenic nematode Pristionchus pacificus

References (177)

Abstract

Journal

Recommended Articles

There are no references for this article.

Our policy towards the use of cookies