Bibliografie

Řazení: Rok, Autoři / Autoři, Rok

Pavouk 44 (6/2018)
Pavouk 44 (6/2018)

A

Does karyotype change drive speciation in the woodlouse hunter spider Dysdera? Multilocus phylogenetical analyse of the Dysdera erythrina species complex.
Arnedo M. A., Opatová V., Řezáč M. & Král J. (2010): Does karyotype change drive speciation in the woodlouse hunter spider Dysdera? Multilocus phylogenetical analyse of the Dysdera erythrina species complex. In Żabka M. (ed.), Book of abstracts of the 18th International Congress of Arachnology. Akademia Podlaska, Siedlce, pp. 67–68.

D

Karyotypes of central European spiders of the genera Arctosa , Tricca , and Xerolycosa (Araneae: Lycosidae). Eur. J. Entomol. 108 (1): 1–16.
Dolejš P., Kořínková T., Musilová J., Opatová V., Kubcová L., Buchar J. & Král J. (2011): Karyotypes of central European spiders of the genera Arctosa, Tricca, and Xerolycosa (Araneae: Lycosidae). Eur. J. Entomol. 108 (1): 1–16.
Nástin karyotypové evoluce sklípkanů (Mygalomorphae) [Insights into the karyotype evolution of mygalomorph spiders].
Dulíková L. & Král J. (2008): Nástin karyotypové evoluce sklípkanů (Mygalomorphae) [Insights into the karyotype evolution of mygalomorph spiders]. In Bryja J., Nedvěd O., Sedláček F. & Zukal J. (eds), Zoologické dny České Budějovice 2008. Sborník abstraktů z konference 14.–15. února 2008.Ústav biologie obratlovců AV ČR, Brno, p. 50 (in Czech).

F

Úvod do biologie sociálních pavouků. Social spiders. Živa 58: 74–77 (in Czech, English summary).
Forman M. & Král J. (2010a): Úvod do biologie sociálních pavouků. Social spiders. Živa 58: 74–77 (in Czech, English summary).
Změny v organizaci genomu a vznik sociality u bezobratlých. Changes in the genom organization and evolution of the sociality in invertebrates. Živa 58: 128–130 (in Czech, English summary).
Forman M. & Král J. (2010b): Změny v organizaci genomu a vznik sociality u bezobratlých. Changes in the genom organization and evolution of the sociality in invertebrates. Živa58: 128–130 (in Czech, English summary).
Studie genomů pavoukovců: obsahy DNA a poměry AT/GC. In Bryja J., Řehák Z. & Zukal J. (eds), Zoologické dny Brno 2009. Sborník abstraktů z konference 12.–13. února 2009 . Ústav biologie obratlovců AV ČR, Brno, p. 62 (in Czech).
Forman M., Horová L., Bureš P. & Král J. (2009): Studie genomů pavoukovců: obsahy DNA a poměry AT/GC. In Bryja J., Řehák Z. & Zukal J. (eds), Zoologické dny Brno 2009. Sborník abstraktů z konference 12.–13. února 2009. Ústav biologie obratlovců AV ČR, Brno, p. 62 (in Czech).
The cytogenetic approach reveals speciation events in social spiders Stegodyphus (Araneae: Eresidae). In Żabka M. (ed.), Book of abstracts of the 18 th International Congress of Arachnology . Akademia Podlaska, Siedlce, pp. 146–1
Forman M., Král J. & Haddad C. R. (2010): The cytogenetic approach reveals speciation events in social spiders Stegodyphus (Araneae: Eresidae). In Żabka M. (ed.), Book of abstracts of the 18thInternational Congress of Arachnology. Akademia Podlaska, Siedlce, pp. 146–147.
Karyotype evolution and detection of 18S rRNA genes in the superfamily Eresoidea. In: Lubin et al. (eds), 26th European Congress of Arachnology, Israel 2011, Program and Abstract Book, 4–8 September 2011 . Ben-Gurion University of the Neg
Forman M., Král J. & Nguen P. (2011): Karyotype evolution and detection of 18S rRNA genes in the superfamily Eresoidea. In: Lubin et al. (eds), 26th European Congress of Arachnology, Israel 2011, Program and Abstract Book, 4–8 September 2011. Ben-Gurion University of the Negev, Israel, p. 36.
Karyotypová analýza stepníků rodu Stegodyphus (Eresidae) naznačuje existenci kryptických sociálních druhů [Chromosome study of velvet spiders of the genus Stegodyphus indicate presence of cryptic social species]. In Bryja J., Nedvěd O., S
Forman M., Král J., Musilová J. & Lubin Y. (2008): Karyotypová analýza stepníků rodu Stegodyphus(Eresidae) naznačuje existenci kryptických sociálních druhů [Chromosome study of velvet spiders of the genus Stegodyphus indicate presence of cryptic social species]. In Bryja J., Nedvěd O., Sedláček F. & Zukal J. (eds), Zoologické dny České Budějovice 2008. Sborník abstraktů z konference 14.–15. února 2008. Ústav biologie obratlovců AV ČR, Brno, p. 54 (in Czech).
Sex chromosome pairing and extensive NOR polymorphism in Wadicosa fidelis (Araneae: Lycosidae).
Forman M., Nguyen P., Hula V. & Král J. (2013): Sex chromosome pairing and extensive NOR polymorphism in Wadicosa fidelis (Araneae: Lycosidae). Cytogenet. Genome. Res. 141: 43–49. DOI: 10.1159/000351041.

J

Distribution patterns of Eresus walckenaeri (Aranae, Eresidae) in the eastern Mediterranean revealed by mitochondrial DNA. Biol. J. Linn. Soc. 86: 1–9.
Johannesen J., Kiefer A., Veith M. & Král J. (2005): Distribution patterns of Eresus walckenaeri (Aranae, Eresidae) in the eastern Mediterranean revealed by mitochondrial DNA. Biol. J. Linn. Soc. 86: 1–9.

K

Karyotypes, sex chromosomes, and meiotic division in spiders.
Kořínková T. & Král J. (2013): Karyotypes, sex chromosomes, and meiotic division in spiders. In Nentwig W. (ed.), Spider Ecophysiology. Springer, Berlin-Heidelberg, pp. 159–171. DOI: 10.1007/978-3-642-33989-9_12.
Cytogenetic data do not support a close relationship between the families Mimetidae and Palpimanidae (Araneae: Araneomorphae). In Żabka M. (ed.), Book of abstracts of the 18 th International Congress of Arachnology . Akademia Podlaska, S
Kořínková T., Král J., Pekár S. & Haddad C. R. (2010): Cytogenetic data do not support a close relationship between the families Mimetidae and Palpimanidae (Araneae: Araneomorphae). In Żabka M. (ed.), Book of abstracts of the 18th International Congress of Arachnology. Akademia Podlaska, Siedlce, pp. 221–223.
Štíři – obyvatelé dávných moří. Vesmír 72(1): 38-44.
Kovařík F. & Král J. (1993): Štíři – obyvatelé dávných moří. Vesmír 72(1): 38-44.
Tityus ythieri Lourenço, 2007 is a synonym of Tityus magnimanus Pocock , 1897 (Scorpiones: Buthidae): a combined approach using morphology, hybridization experiments, chromosomes, and mitochondrial DNA. Euscorpius 77: 1-12.
Kovařík F., Šťáhlavský F., Kořínková T., Král J. & Ende T. van der (2009): Tityus ythieri Lourenço, 2007 is a synonym of Tityus magnimanus Pocock, 1897 (Scorpiones: Buthidae): a combined approach using morphology, hybridization experiments, chromosomes, and mitochondrial DNA. Euscorpius 77: 1-12.
Přehled cytogenetiky pavoukovců [Review of arachnid cytogenetics]. Biologické listy 59: 282–306 (in Czech, Englishsummary).
Král J. (1994): Přehled cytogenetiky pavoukovců [Review of arachnid cytogenetics]. Biologické listy59: 282–306 (in Czech, Englishsummary).
Přehled cytogenetiky pavoukovců. Biologické listy 59 (4): 282–306.
Král J. (1994): Přehled cytogenetiky pavoukovců. Biologické listy 59 (4): 282–306.
The karyotype of Argyroneta aquatica and basic scheme of the karyotype evolution in the superfamilies Amaurobioidea and Dictynoidea. In Abstracts of the XIIIth International Congress of Arachnology . Muséum d’histoire naturelle, Genè
Král J. (1995a): The karyotype of Argyroneta aquaticaand basic scheme of the karyotype evolution in the superfamilies Amaurobioidea and Dictynoidea. In Abstracts of the XIIIth International Congress of Arachnology. Muséum d’histoire naturelle, Genève, p. 27.
The karyotype studies in central Europe’s species of the superfamilies Amaurobioidea and Dictynoidea (Araneida). In Růžička V. (ed.), Proceedings of the 15th European Colloquium of Arachnology . Institute of Entomology, České Budějovice, p. 224.
Král J. (1995b): The karyotype studies in central Europe’s species of the superfamilies Amaurobioidea and Dictynoidea (Araneida). In Růžička V. (ed.), Proceedings of the 15th European Colloquium of Arachnology. Institute of Entomology, České Budějovice, p. 224.
Evolution of multiple sex chromosomes in the spider genus Malthonica (Araneae: Agelenidae) indicates unique structureof the spider sex chromosome systems.
Král J. (2007): Evolution of multiple sex chromosomes in the spider genus Malthonica (Araneae: Agelenidae) indicates unique structureof the spider sex chromosome systems. Chromosome Research 15: 863–879.
Evolution of the karyotype and sex chromosome systems in mesothelid and mygolomorph spiders. In Żabka M. (ed.), Book of abstracts of the 18 th International Congress of Arachnology . Akademia Podlaska, Siedlce, pp. 227–229.
Král J., Dulíková L., Kořínková T., Musilová J., Vítková M., Hedin M., Henriques S. S. & Haddad C. R. (2010): Evolution of the karyotype and sex chromosome systems in mesothelid and mygolomorph spiders. In Żabka M. (ed.), Book of abstracts of the 18th International Congress of Arachnology. Akademia Podlaska, Siedlce, pp. 227–229.
Origin of spider sex chromosomes: lessons from meiosis of entelegynes and mygalomorphs. In: Lubin et al. (eds), 26th European Congress of Arachnology, Israel 2011, Program and Abstract Book, 4–8 September 2011. Ben-Gurion University of t
Král J., Kořínková T. & Forman M. (2011): Origin of spider sex chromosomes: lessons from meiosis of entelegynes and mygalomorphs. In: Lubin et al. (eds), 26th European Congress of Arachnology, Israel 2011, Program and Abstract Book, 4–8 September 2011. Ben-Gurion University of the Negev, Israel, p. 37.
Insights into the meiotic behavior and evolution of multiple sex chromosome system in spiders. Cytogenet. Genome Res. 133 (1): 43–66.
Král J., Kořínková T., Forman M. & Krkavcová L. (2011): Insights into the meiotic behavior and evolution of multiple sex chromosome system in spiders. Cytogenet. Genome Res. 133 (1): 43–66.
Insights into the meiotic behavior and evolution of multiple sex chromosome system in spiders. Cytogenet. Genome Res. 133 (1): 43–66.
Král J., Kořínková T., Forman M. & Krkavcová L. (2011): Insights into the meiotic behavior and evolution of multiple sex chromosome system in spiders. Cytogenet. Genome Res. 133 (1): 43–66.
Evolution of karyotype, sex chromosomes, and meiosis in mygalomorph spiders (Araneae: Mygalomorphae).
Král J., Kořínková T., Krkavcová L., Musilová J., Forman M., Ávila Herrera I. M., Haddad C. R., Vítková M., Henriques S., Palacios Vargas J. G. & Hedin M. (2013): Evolution of karyotype, sex chromosomes, and meiosis in mygalomorph spiders (Araneae: Mygalomorphae). Biol. J. Linn. Soc. 109: 377–408. DOI: 10.1111/bij.12056.
The first karyotype study in palpigrades, a primitive order of arachnids (Arachnida: Palpigradi).
Král J., Kováč Ľ., Šťáhlavský F., Lonský P., Ľuptáčik P (2008): The first karyotype study in palpigrades, a primitive order of arachnids (Arachnida: Palpigradi). Genetica 134: 79–87.
Evolution of the karyotypeand sex chromosome systems in basal clades of araneomorph spiders (Araneae: Araneomorphae). Chromosome Research 14: 859–880.
Král J., Musilová J., Šťáhlavský F., Řezáč M., Akan Z., Edwards R. L., Coyle F. A. & Ribera C. A. (2006): Evolution of the karyotypeand sex chromosome systems in basal clades of araneomorph spiders (Araneae: Araneomorphae). Chromosome Research 14: 859–880.
Evolution of holocentric chromosomes and X 1 X 2 Y system: two karyotype traits found in basal cladses of araneomorph spiders (Araneae: Araneomorphae). In Żabka M. (ed.), Book of abstracts of the 18 th International Congres
Král J., Pastuchová M., Musilová J., Kořínková T., Řezáč M., Vítková M., Huber B. A. & Haddad C. R. (2010): Evolution of holocentric chromosomes and X1X2Y system: two karyotype traits found in basal cladses of araneomorph spiders (Araneae: Araneomorphae). In Żabka M. (ed.), Book of abstracts of the 18th International Congress of Arachnology. Akademia Podlaska, Siedlce, pp. 230–232.
Fundamental trends in the karyotype evolution of Pedipalpi: comparison with spiders, solifuges, and palpigrades.
Král J., Šťáhlavský F., Musilová J., Sember A., Dulíková L., Pekár S., Weygoldt P., Haupt J., Gromov A., Huber S. & Prendini L. (2008): Fundamental trends in the karyotype evolution of Pedipalpi: comparison with spiders, solifuges, and palpigrades. In: Abstracts of the 24th European Congess of Arachnology, 25 – 29 August 2008, Bern, pp. 59.

P

A comparative study of the biology and karyotypes of two central European zodariid spiders (Araneae, Zodariidae).
Pekár S. & Král J. (2001): A comparative study of the biology and karyotypes of two central European zodariid spiders (Araneae, Zodariidae). J. Arachnol. 29: 345–353.
Mravčíky – pozoruhodná skupina myrmekofilných pavúkov [Zodariid spiders – the remarkable group ofmyrmecophagous spiders]. Živa 46: 173–174 (in Slovak, English summary).
Pekár S. & Král J. (1998): Mravčíky – pozoruhodná skupina myrmekofilných pavúkov [Zodariid spiders – the remarkable group ofmyrmecophagous spiders]. Živa46: 173–174 (in Slovak, English summary).
Mimicry complex in two central European zodariid spiders (Araneae: Zodariidae): how Zodarion deceives ants. Biol. J. Linn. Soc. 75: 517–532.
Pekár S. & Král J. (2002): Mimicry complex in two central European zodariid spiders (Araneae: Zodariidae): how Zodarion deceives ants. Biol. J. Linn. Soc. 75: 517–532.
Natural history and karyotype of some ant-eating zodariid spiders (Araneae, Zodariidae) from Israel. J. Arachnol. 33: 50–62.
Pekár S. & Král J. & Lubin Y. (2005): Natural history and karyotype of some ant-eating zodariid spiders (Araneae, Zodariidae) from Israel. J. Arachnol. 33: 50–62.
Cesta za tajomstvom solifúg. [Towards discovering the mystery of Solifugids].
Pekár S., Král J. & Hrušková M. (2004): Cesta za tajomstvom solifúg. [Towards discovering the mystery of Solifugids]. Živa 1: 25-28. (in Slovak)
Comparison of natural histories and karyotypes of two closely related ant-eating spiders, Zodarion hamatum and Z. italicum (Araneae, Zodariidae). Journal of Natural History 39: 1583–1596.
Pekár S., Král J., Malten A. & Komposch C. (2005): Comparison of natural histories and karyotypes of two closely related ant-eating spiders, Zodarion hamatumand Z. italicum (Araneae, Zodariidae). Journal of Natural History 39: 1583–1596.

Ř

Integrative taxonomy and evolutionary history of a newly revealed spider Dysdera ninnii complex (Araneae: Dysderidae).
Řezáč M., Gasparo F., Král J. & Heneberg P. (2014): Integrative taxonomy and evolutionary history of a newly revealed spider Dysdera ninnii complex (Araneae: Dysderidae). Zool. J. Linn. Soc. 172 (2): 451–474. DOI: 10.1111/zoj.12177.
The spider genus Dysdera (Araneae, Dysderidae) in central Europe: revision and natural history. J. Arachnol. 35 [2007]: 432–462.
Řezáč M., Král J. & Pekár S. (2008): The spider genus Dysdera(Araneae, Dysderidae) in central Europe: revision and natural history. J. Arachnol. 35 [2007]: 432–462.
Revize pavouků druhového agregátu Dysdera erythrina (Araneae, Dysderidae): sympatrický výskyt sibling druhů [Revision of the spiders of the species aggregate Dysdera erythrina : sympatric occurrence of sibling species]. In Bryja J.,
Řezáč M., Král J. & Pekár S. (2007): Revize pavouků druhového agregátu Dysdera erythrina (Araneae, Dysderidae): sympatrický výskyt sibling druhů [Revision of the spiders of the species aggregate Dysdera erythrina: sympatric occurrence of sibling species]. In Bryja J., Zukal J. & Řehák Z. (eds), Zoologické dny Brno 2007. Sborník abstraktů z konference 8.–9. února 2007. Ústav biologie obratlovců AV ČR, Brno, p. 46–47 (in Czech).
Unusual karyotype diversity in the European spiders of the genus Atypus (Araneae: Atypidae).
Řezáč M., Král J., Musilová J. & Pekár S. (2006): Unusual karyotype diversity in the European spiders of the genus Atypus (Araneae: Atypidae). Hereditas 143: 123–129.

Š

Karyotype analysis and achiasmatic meiosis in pseudoscorpions of the family Chthoniidae (Arachnida: Pseudoscorpiones).
Šťáhlavský F. & Král J. (2004): Karyotype analysis and achiasmatic meiosis in pseudoscorpions of the family Chthoniidae (Arachnida: Pseudoscorpiones). Hereditas, 140: 49–60.

V

The evolutionary origin of insect telomeric repeats, (TTAGG) n .
Vítková M., Král J., Traut W., Zrzavý J. & Marec F. (2005): The evolutionary origin of insect telomeric repeats, (TTAGG)n. Chromosome Research, 13: 145–156.
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