Registro:

Referencias:

• • Agopian, S., L.M. Mola (1984a) Bandeo C en Odonata. XV Congreso de la Sociedad Argentina de Genética, 17; • Agopian, S., L.M. Mola (1984b) An exceptionally high chromosome number in Orthemis nodiplaga Karsch (Anisoptera, Libellulidae). Notulae Odonatologica 2, 45; • Agopian, S., L.M. Mola (1988) Intra and interspecific karyotype variability in five species of Libellulidae (Anisoptera, Odonata). Caryologia 41, 69-78; • Albertson, D.G., N. Thomson (1982) The kinetochores of Caenorhabditis elegans. Chromosoma 86, 409-428; • Albertson, D.G., T. Thomson (1993) Segregation of holocentric chromosomes at meiosis in the nematode Caenorhabditis elegans. Chromosome Res. 1, 15-26; • Avancini, R.M.P., S.M. Recco-Pimentel, A.P. Prado (2000) Labidura riparia (Dermaptera, Labiduridae) from Brazil: karyotype and C-banding. The Japan Mendel Society 65, 93-96; • Battaglia, E., J.W. Boyes (1955) Post-reductional meiosis: its mechanism and causes. Caryologia 8, 87-134; • Bayreuther, K. (1955) Holokinetische chromosomen bei Haematopinus suis (Anoplura, Haematopinidae). Chromosoma 7, 260-270; • Benavente, R. (1982) Holocentric chromosomes of arachnids: presence of kinetochore plates during meiotic divisions. Genetica 59, 23-27; • Bizzaro, D., E. Barbolini, M. Mandrioli, E. Mazzoni, G.C. Manicardi (1999) Cytogenetic characterization of the holocentric chromosomes in the aphids Myzus varians and Myzus cerasi. Caryologia 52, 81-85; • Blackman, R.L. (1985) Spermatogenesis in the aphid Amphorophora tuberculata (Homoptera, Aphididae). Chromosoma 92, 357-362; • Bokhari, F.S., M.B.E. Godward (1980) The ultrastructure of the diffuse kinetochore in Luzula nivea. Chromosoma 79, 125-136; • Braselton, J.P. (1971) The ultrastructure of the non-localized kinetochores of Luzula and Cyperus. Chromosoma 36, 89-99; • Braselton, J.P. (1981) The ultrastructure of meiotic kinetochores of Luzula. Chromosoma 82, 143-151; • Bressa, M.J., A.G. Papeschi, L.M. Mola, M.L. Larramendy (1998) Meiotic studies in Largus rufipennis (Castelnau) (Largidae, Heteroptera). II. Reciprocal translocation heterozygosity. Heredity 51, 253-264; • Buck, R.C. (1967) Mitosis and meiosis in Rhodnius prolixus: the fine structure of the spindle and diffuse kinetochore. J. Ultraestruct. Res. 18, 489-501; • Camacho, J.P.M., J. Belda, J. Cabrero (1985) Meiotic behaviour of the holocentric chromosomes of Nezara viridula (Insecta, Heteroptera) analysed by C-banding and silver impregnation. Can. J. Genet. Cytol. 27, 490-497; • Camara, A. (1953) Posicao actual do problema do centromero. Genetica Iberica 5, 1-33; • Castro, D. (1950) The structure of the centromere and its functioning. Genetica Iberica 2, 201-209; • Castro, D., A. Cámara, N. Malheiros (1949) X-rays in the centromere problem of Luzula purpurea Link. Genetica Iberica 1, 49-54; • Chakravorti, A.K. (1948a) Multiplication of chromosome numbers in relation to speciation in Zingiberaceae. Science and Culture 14, 137-140; • Chakravorti, A.K. (1948b) Theory of fragmentation of chromosomes and evolution of species. Science and Culture 13, 309-312; • Chandra, H.S. (1962) Inverse meiosis in triploid females of the mealy bug, Planococcus citri. Genetics 47, 1441-1454; • Chickering, A.M. (1932) Spermatogenesis in the Belostomatidae. III. The chromosomes in the male germ cells of a Lethocerus from New Orleans, Louisiana. Pap. Mich. Acad. Sci. 15, 357-360; • Collet, C., M. Westerman (1984) Interspersed distribution patterns of C-bands and satellite DNA in the holocentric chromosomes of Luzula flaccida (Juncaceae). Genetica 63, 175-179; • Comings, D.E., T.A. Okada (1970) Mechanism of chromosome pairing during meiosis. Nature 227, 451-456; • Comings, D.E., T.A. Okada (1972) Holocentric chromosomes in Oncopeltus: kinetochore plates are present in mitosis but absent in meiosis. Chromosoma 37, 177-192; • Cooper, R.S. (1972) Experimental demonstration of holokinetic chromosomes and of differential radiosensitivity during oogenesis in the grass mite Siteroptes gramineum (Reuter). J. Exp. Zool. 182, 69-94; • Cumming, R.B. (1964) Cytogenetic studies in the order Odonata. Ph. D., University of Texas, Austin. pp v+93; • De Gennaro, D. (2004) Análisis meiótico y caracterización de la heterocromatina en especies argentinas de Anisoptera, Odonata. Tesis de Licenciatura, Departamento de Ecología, Genética y Evolución; Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires, Buenos Aires. pp 66; • Dernburg, A.E. (2001) Here, there, and everywhere: kinetochore function on holocentric chromosomes. J. Cell Biol. 153, 33-38; • Feiertag-Koppen, C.C.M. (1980) Cytological studies of the two-spotted spider mite Tetranychus urticae Koch (Tetranychidae, Trombidiformes). II. Meiosis in growing oocytes. Genetica 54, 173-180; • Ferraro, M., C. Epifani, S. Bongiorni, A.M. Nardone, S. Parodi-Delfmo, G. Prantera (1998) Cytogenetic characterization of the genome of mealy-bug Planococcus citri (Homoptera, Coccoidea). Caryologia 51, 37-49; • Flach, M. (1966) Diffuse centromeres in a dicotyledonous plant. Nature 209, 1369-1370; • Frankovic, M., J. Jurecic (1989) Comparative cytogenetic analysis of karyotype morphology and organization in males of Libellula depressa L. and Libellula fulva Müller (Insecta, Odonata). Period Biol 91, 32-33; • Friedlander, M., J. Wahrman (1970) The spindle as a basal body distributor A study in the meiosis of the male silkworm moth, Bombyx mori. J. Cell Sci. 7, 65-89; • García, M.A. (2001) A new western Mediterranean species of Cuscuta (Convolvulaceae) confirms the presence of holocentric chromosomes in subgenus Cuscuta. Botanical Journal of the Linnean Society 135, 169-178; • Gassner, G., D.J. Klemetson (1974) A transmission electron microscope examination of hemipteran and lepidopteran gonial contromeres. Can. J. Genet. Cytol. 16, 457-464; • Goday, C., A. Ciofi-Luzzatto, S. Pimpinelli (1985) Centromere ultraestructure in germ-line chromosomes of Parascaris. Chromosoma 91, 121-125; • Goday, C., J.M. González-García, M.R. Esteban, G. Giovinazzo, S. Pimpinelli (1992) Kinetochores and chromatin diminution in early embryos of Parascaris univalens. J. Cell Biol. 118, 23-32; • Goday, C., S. Pimpinelli (1986) Cytological analysis of chromosomes in the two species Parascaris univalens and P. equorum. Chromosoma 94, 1-10; • Goday, C., S. Pimpinelli (1989) Centromere organization in meiotic chromosomes of Parascaris univalens. Chromosoma 98, 160-166; • Godward, M.B.E. (1954) Irradiation of Spirogyra chromosomes. Heredity 8, 293; • Goldstein, P. (1977) Spermatogenesis and spermiogenesis in Ascaris lumbricoides Var. suum. J. Morph. 154, 317-338; • Goldstein, P., A.C. Triantaphyllou (1980) The ultrastructure of sperm development in the plant-parasitic nematode Meloidogyne hapla. J. Ultraestruct. Res. 71, 143-153; • Gonzalez- García, J.M., R. Benavente, J.S. Rufas (1996) Cytochemical and immunochemical characterization of kinetochores in the holocentric chromosomes of Graphosoma italicum. Eur. J. Cell Biol. 70, 352-360; • González-García, J.M., C. Antonio, J.A. Suja, J.S. Rufas (1996) Meiosis in holocentric chromosomes: kinetic activity is randomly restricted to the chromatid ends of sex univalents in Graphosoma italicum (Heteroptera). Chromosome Res. 4, 124-132; • Greilhuber, J. (1993) Chromosomes of the monocotyledons. Kew Monocotyledon Symposium, 12; • Greilhuber, J. (1995) Chromosomes of the monocotyledons (General Aspects). In: Monocotyledons: systematics and evolution. P.J. Randall, Cribb P.J., Cutler D.F.and Humphries C.J., eds. Kew, Royal Botanical Gardens. pp 379-414; • Grozeva, S., S. Nokkala (2001) Chromosome numbers, sex determining systems, and patterns of the C-heterochromatin distribution in 13 species of lace bugs (Heteroptera, Tingidae). Folia Biol. 49, 29-41; • Guerra, M., M.A. García (2004) Heterochromatin and rDNA sites distribution in the holocentric chromosomes of Cuscuta approximata Bab. (Convovulaceae). Genome 47, 134-140; • Håkansson, A. (1954) Meiosis and mitosis in X-rayed and untreated spikelets of Eleocharis palustris. Hereditas 40, 325-345; • Halkka, O. (1964) A photometric study of the Luzula problem. Hereditas 52, 80-88; • Harada, A., T. Yamagishi (1980) Cytological studies on Zygnema (Clorophyceae) I. Mitosis. Japanese Journal of Phycology 28, 233-239; • Henderson, S.A. (1970) Sex chromosomal polymorphism in the earwig Forficula. Chromosoma 31, 139-164; • Henikoff, S., K. Ahmad, H.S. Malik (2001) The centromere paradox: stable inheritance with rapidly evolving DNA. Science 293, 1098-1102; • Hollander, J.D. (1982) The chromosomes of Nilaparvata lugens Stäl. and some other Auchenorrhyncha. Cytologia 47, 227-236; • Holm, P.B., S.W. Rasmussen (1980) Chromosome pairing, recombination nodules and chiasma formation in diploid Bombyx males. Carlsberg Research Communications 45, 483-548; • Horne, A.S. (1930) Nuclear division in the Plasmidiophorales. Annals of Botany 44, 199-231; • Hughes-Schrader, S. (1948) Cytology of coccids (Coccoidea-Homoptera). Adv. Genet. 2, 127-203; • Hughes-Schrader, S. (1955) The chromosomes of the giant scale Aspidoproctus maximus Louns. (Coccoidea-Margarodidae) with special reference to asynapsis and sperm formation. Chromosoma 7, 420-438; • Hughes-Schrader, S., H. Ris (1941) The diffuse spindle attachment of coccids as verified by the mitotic behavior of induced fragments. J. Exp. Zool. 87, 429-456; • Hughes-Schrader, S., F. Schrader (1956) Polyteny as a factor in the chromosomal evolution of the Pentatomini (Hemiptera). Chromosoma 8, 135-151; • Hughes-Schrader, S., F. Schrader (1957) The Nezara complex (Pentatomidae Heteroptera) and its taxonomic and cytological status. J. Morph. 101, 1-24; • Hughes-Schrader, S., F. Schrader (1961) The kinetochore of the Hemiptera. Chromosoma 12, 327-350; • Ituarte, S., A.G. Papeschi (2004) Achiasmatic male meiosis in Tenagobia (Fuscagobia) fuscata (Heteroptera, Corixoidea, Micronectidae). Genetica 122, 199-206; • John, B., K.R. Lewis (1965) The meiotic system. ed., Springer, Berlin, pp; • Kiauta, B. (1969) Sex chromosome and sex determining mechanisms in Odonata, with a review of the cytological condition in the family Gomphidae, and references to the karyotypic evolution in the order. Genetica 40, 127-157; • Kiauta, B. (1970) Entomologische Berichten 30, 71-; • Kiauta, B. (1972) Synopsis of the main cytotaxonomic data in order Odonata. Odonatologica 1, 73-102; • King, G.C. (1953) Diffuse centromere, and other cytological observations on two desmids. Nature 171, 181; • Kirillova, V.I. (1988) The karyotypes of eleven species of plant-hoppers of the family Delphacidae (Homoptera, Cicadinea). Tsitologiya 30, 69-75; • Kuta, E., B. Bohanec, E. Dubas, L. Vitintin, L. Przywara (2004) Chromosome and nuclear DNA study on Luzula- a genus with holokinetic chromosomes. Genome 47, 246-256; • Kuznetsova, V.G., A. Maryanska-Nadachowska, S. Nokkala (2003) A new approach to the Auchenorrhyncha (Hemiptera, Insecta) cytogenetics: chromosomes of the meadow spittlebug Philaenus spumarius (L.) examined using various chromosome banding techniques. Folia Biol. 51, 33-40; • Kuznetsova, V.G., A. Maryanska-Nadachowska, C.T. Yang, L.B. O'Brien (1998) Karyotypes, sex-chromosome systems, and testis structure in Fulgoroidea (Auchenorrhynca, Homoptera, Insecta). Folia Biol. 46, 23-40; • Kuznetsova, V.G., S. Nokkala, E. Shcherbakov (2002) Karyotype, reproductive organs, and pattern of gametogenesis in Zorotypus hubbardi Caudell (Insecta: Zoraptera, Zorotypidae), wtih discussion on relationships of the order. Can. J. Zool. 80, 1047-1054; • La Chance, L.E., M. Degrugillier (1969) Chromosomal fragments transmitted through three generations in Oncopeltus (Hemiptera). Science 166, 235-236; • Lambert, A.M. (1971) Contribution à l'étude du centromère diffus chez les Luzules: Observations sur Luzula albida. Comptes Rendus de la Academie des Sciences de Paris. serie D 272, 403-406; • Lecher, P. (1973) Microtubules, splindle and diffuse kinetochores in the protozoan Aulacantha. Chromosomes Today 4, 225-234; • Lefèvre, G., C.C. Mc Gill (1908) The chromosomes of Anasa tristis and Anax junius. American Journal of Anatomy 7, 467-487; • Lima de Faria, A. (1949) Genetics, origin and evolution of kinetochores. Hereditas 35, 422-444; • Luceño, M., M. Guerra (1996) Numerical variation in species exhibiting holocentric chromosomes: a nomenclatural proposal. Caryologia 49, 301-309; • Luceño, M., A.L.L. Vanzela, M. Guerra (1998) Cytotaxonomic studies in Brazilian Rhynchospora (Cyperaceae), a genus exhibiting holocentric chromosomes. Canad. Jour. Bot. 76, 440-449; • Maddox, P.S., K. Oegema, A. Desai, I.A. Cheeseman (2004) Holoer than thou: chromosome segregation and kinetochore function in C. elegans. Chromosome Res. 12, 641-653; • Maddrell, S.M.P., N.J. Lane, J.B. Morrison, Gardiner (1985) DNA replication in binuclate cells of the Malpighian tubules of Hemipteran insects. Chromosoma 91, 201-209; • Madej, A. (1998) Spindle microtubules and chromosome behavior in mitosis of Luzula luzuloides, a species with holokinetic chromosomes. Acta Biologica Cracoviensia, Series Botanica 40, 61-67; • Malheiros-Gardé, N., A. Gardé (1950) Fragmentation as a possible evolutionary process in the genus Luzula D. C. Genét. Ibér. 2, 257; • Mandrioli, M. (2002) Cytogenetic characterization of telomeres in the holocentric chromosomes of the lepidopteran Mamestra brassicae. Chromosome Res. 10, 279-286; • Mandrioli, M. (2003) Identification and chromosomal localization of mariner-like elements in the cabbage moth Mamestra brassicae (Lepidoptera). Chromosome Res. 11, 319-322; • Mandrioli, M., S. Ganassi, D. Bizzaro, G.C. Manicardi (1999) Cytogenetic analysis of the holocentric chromosomes of the aphid Schizaphis graminum. Hereditas 131, 185-190; • Mandrioli, M., G.C. Manicardi (2003) Analysis of insect holocentric chromosomes by atomic force microscopy. Hereditas 138, 129-132; • Manicardi, G.C., D.C. Gautam, D. Bizzaro, E. Guicciardi, A.M. Bonvicini Pagliai, U. Bianchi (1991) Chromosome banding in aphids: G, C, AluI, and HaeIII banding patterns in Megoura viciae (Homoptera, Aphididae). Genome 34, 661-665; • Manna, G.K. (1984) Chromosomes in evolution in Heteroptera. In: Chromosomes in evolution of eukaryotic groups. A.K. Sharmaand Sharma A., eds. Boca Raton Florida USA, CRC Press. pp 189-225; • Maryanska-Nadachowska, A. (1999) B-chromosome polymorphism in Rhinocola aceris (L.) (Psylloidea, Homoptera). Folia Biol. 47, 115-121; • Maryanska-Nadachowska, A. (2002) A review of karyotype variation in jumping plant-lice (Psylloidea, Sternorrhyncha, Hemiptera) and checklist of chromosome numbers. Folia Biologica (Krakòw) 50, 135-152; • Meinander, M., O. Halkka, V. Söderlund (1974) Chromosomal evolution in the Psocoptera. Notulae Entomologicae 54, 81-84; • Mello, M.L.S., M.A.F. Randi, S. Giorgio, A.N. Ferraz- Filho, V.C.C. Rodrigues, E.O. Rocha-e-Silva, J.A. Cordeiro (1986) Number of chromosomes, Feulgen- DNA content, and nuclear phenotypes in domestic and wild specimens of Panstrongylus megistus. Annals of Tropical and Medicine Parasitology 80, 641-648; • Mello-Sampayo, T. (1961) Differential polyteny and karyotype evolution in Luzula: a critical interpretation of morphological and cytophotometric data. Genetica Iberica 12, 1-22; • Mola, L.M. (1992) Estudios cromosómicos en libélulas (Orden Odonata). Doctoral, Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires, Buenos Aires. pp III+184; • Mola, L.M. (1995) Post-reductional meiosis in Aeshna (Aeshnidae, Odonata). Hereditas 122, 47-55; • Mola, L.M. (1996) Meiotic studies in nine species of Erythrodiplax (Libellulidae, Odonata). Neo-XY sex chromosome system in E. media. Cytologia 61, 221-229; • Mola, L.M., S. Agopian (1985) Observations on the chromosomes of four South American Libellulidae (Anisoptera). Odonatologica 14, 115-125; • Mola, L.M., A.G. Papeschi (1994) Karyotype evolution in Aeshna (Aeshnidae, Odonata). Hereditas 121, 185-189; • Mola, L.M., A.G. Papeschi, E. Taboada Carrillo (1999) Cytogenetics of seven species of dragonflies. A novel sex chromosome determining system in Micrathyria ungulata. Hereditas 131, 147-153; • Mora, M., A. Herrera, P. León (1996) The genome of Epiperipatus biolleyi (Peripatidae), a Costa Rican Onychophoran. Revista de Biología Tropical 44; • Mughal, S., M.B.E. Godward (1973) Kinetochore and microtubules in two members of Clorophyceae, Cladophora fracta and Spirogyra majuscula. Chromosoma 44, 213-229; • Murakami, A., H.T. Imai (1974) Cytological evidence for Holocentric chromosomes of the silkworms, Bombyx mori and B. mandarina, (Bombycidae, Lepidoptera). Chromosoma 47, 167-178; • Niedermaier, J., K.B. Moritz (2000) Organization and dynamics of satellite and telomere DNAs in Ascaris: implications for formation and programmed breakdown of compound chromosomes. Chromosoma 109, 439-452; • Nokkala, S. (1985) Restriction of kinetic activity of holokinetic chromosomes in meiotic cells and its structural basis. Hereditas 102, 85-88; • Nokkala, S., N.V. Golub (2002) Cytogenetics of three parthenogenetic Psocid species (Psocoptera, Psocomorpha). Hereditas 137, 198-201; • Nokkala, S., S. Grozeva (2000) Achiasmatic male meiosis in Myrmedobia coleoptrata (Fn.) (Heteroptera, Microphysydae). Caryologia 53, 5-8; • Nokkala, S., S. Grozeva, V.G. Kuznetsova, A. Maryanska-Nadachowska (2003) The origin of the achiasmatic XY sex- chromosome system in Cacopsylla peregrina (Frst.) (Psylloidea, Homoptera). Genetica 119, 327-332; • Nokkala, S., A. Laukkanen, C. Nokkala (2002) Mitotic and meiotic chromosomes in Somatochlora metallica (Cordulidae, Odonata). The absence of localized centromeres and inverted meiosis. Hereditas 136, 7-12; • Nokkala, S., C. Nokkala (1983) Achiasmatic male meiosis in two species of Saldula (Saldidae, Hemiptera). Hereditas 99, 131-134; • Nokkala, S., C. Nokkala (1984) Achiasmatic male meiosis in the Heteropteran genus Nabis (Nabidae, Hemiptera). Hereditas 101, 31-35; • Nokkala, S., C. Nokkala (1986a) Achiasmatic male meiosis in Anthocoris nemorum (L.) (Anthocoridae, Hemiptera). Hereditas 105, 287-289; • Nokkala, S., C. Nokkala (1986b) Achiasmatic male meiosis of collochore type in the heteropteran family Miridae. Hereditas 105, 193-197; • Nokkala, S., C. Nokkala (1996) The absence of chiasma terminalization and inverted meiosis in males and females of Myrmus miriformis Fn. (Corizidae, Heteroptera). Heredity 78, 561-566; • Nordenskiöld, H. (1951) Cytotaxonomical studies in the genus Luzula. I. Somatic chromosomes and chromosome numbers. Hereditas 37, 325-355; • Nordenskiöld, H. (1961) Tetrad analysis and the course of meiosis in three hybrids of Luzula campestris. Hereditas 47, 203-238; • Nordenskiöld, H. (1962) Studies of meiosis in Luzula purpurea. Hereditas 48, 503-519; • Nordenskiöld, H. (1963) A study of meiosis in the progeny of X-irradiated Luzula purpurea. Hereditas 49, 33-47; • Ogawa, A. (1953) Chromosome studies in the Myriapoda. V. A chromosomal survey in some chilopods with a cyto-taxonomic consideration. Japanese Journal of Genetics 23, 12-28; • Oksala, T. (1943) Zytologische Studien an Odonaten. I. Chromosomenverhältnisse bei der Gattung Aeschna mit besonderer berücksichtigung der postreduktionellen Teilung der Bivalente. Ann. Acad. Sci. Fenn. 4, 1-64; • Oksala, T. (1948) The concept and mechanism of chromosome reduction. Hereditas 34, 104-112; • Oliver, J.H. (1977) Cytogenetics of mites and ticks. Annual Review of Entomology 22, 407-429; • Panzera, F., R. Perez, Y. Panzera, F. Alvarez, E. Scvortzoff, R. Salvatella (1995) Karyotype evolution in holocentric chromosomes of three related species of triatomines (Hemiptera-Reduviidae). Chromosome Res. 3, 143-150; • Papeschi, A.G. (1988) C-banding and DNA content in three species of Belostoma (Heteroptera) with large differences in chromosome size and number. Genetica 76, 43-51; • Papeschi, A.G. (1991) DNA content and heterochromatin variation in species of Belostoma (Heteroptera, Belostomatidae). Hereditas 115, 109-114; • Papeschi, A.G. (1992) Estudios citogenéticos y evolutivos en Heteroptera. Doctor en Ciencias Biológicas, Departamento de Ciencias Biológicas de la Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires, Buenos Aires. pp VII+259; • Papeschi, A.G. (1994) Chromosome rearrangements in Belostoma plebejum (Belostomatidae, Heteroptera). Caryologia 47, 223-230; • Papeschi, A.G., M.J. Bressa (2002) Cytogenetic studies in Belostomatidae from Argentina. Abstracts of the Second Quadrennial Meeting of the International Heteropterists Society 46; • Papeschi, A.G., L.M. Mola, M.J. Bressa, E.J. Greizerstein, V. Lia, L. Poggio (2003) Behaviour of ring bivalents in holokinetic systems: alternative sites of spindle attachment in Pachylis argentinus and Nezara viridula (Heteroptera). Chromosome Res. 11, 725-733; • Papeschi, A.G., L.M. Mola, P. Rebagliati, S. Rodriguez Gil, M.J. Bressa (2001) Heterochromatin characterization in the holokinetic chromosomes of some Heteroptera, Odonata and Araneae with DAPI - CMA. Abstracts 14th Chromosome Conference, Chromosome Research 9, 75; • Pazy, B., U. Plitmann (1994) Holocentric chromosome behaviour in Cuscuta (Cuscutaceae). Plant Systematics and Evolution 191, 105-109; • Pazy, B., U. Plitmann (2002) New perspectives on the mechanisms of chromosome evolution in parasitic flowering plants. Botanical Journal of the Linnean Society 138, 117-122; • Peperelov, E., A.G. Bugrov, E. Warchalowska-Sliwa (2001) C-banded karyotypes of some dragonfly species from Russia II. The families Cordulegasteridae, Corduliidae and Gomphidae. Folia Biologica (Krakòw) 49, 175-178; • Perepelov, E., A.G. Bugrov (2001) C-heterochromatin in chromosome of Ophiogomphus cecilia cecilia (Four) (Anisoptera: Gomphidae) with notes on the sex chromosome origin in the species. Caryologia 54, 169-172; • Perepelov, E., A.G. Bugrov, E. Warchalowska-Sliwa (1998) C-banded karyotypes of some dragonflies species from Russia. Folia Biologica (Krakòw) 46, 137-142; • Pidoux, A.L., R.C. Allshire (2000) Centromeres: getting a grip of chromosomes. Current Opinion in Cell Biology 12, 308-319; • Pijnacker, L.P., M.A. Ferwerda (1976) Differential Giemsa staining in the holokinetic chromosomes in the two-spotted spider Mite Tetranychus urticae Koch (Acari, Tetranychidae). Experientia 32, 158-160; • Pimpinelli, S., C. Goday (1989) Unusual kinetochores and chromatin diminution in Parascaris. Trends Genet. 5, 310-315; • Piza, S.d.T. (1939) Comportamento dos cromossomios na primera divisao do espermatocito do Tytius bahiensis. Scientia Genetica 1, 255-; • Piza, S.d.T. (1941) Chromosome with two spindle attachments in the Brazilian scorpion (Tytius bahiensis Perty). Journal of Heredity 32, 423-426; • Piza, S.d.T. (1943) Meiosis in the male of the Brazilian scorpion Tytius bahiensis. Revista de Agricultura de Sao Paulo 18, 249-276; • Piza, S.d.T. (1950) The present status of the question of the kinetochore. Genetica Iberica 2, 195-199; • Prasad, K., K.I. Thoma (1992) C-band pattern homogeneity in dragonflies (Odonata). Caryologia 45, 57-68; • Rasmussen, S.W. (1977) The transformation of the synaptonemal complex into the elimination chromatin in Bombyx mori oocytes. Chromosoma 60, 205-221; • Ray, J.H., S. Venketeswaran (1978) Constitutive heterochromatin distribution in monocentric and polycentric chromosomes. Chromosoma 66, 341-350; • Rebagliati, P., L.M. Mola, A.G. Papeschi, J. Grazia (2005) Cytogenetic studies in Pentatomidae (Heteroptera). A review. J. Zool. Syst. Evol. Res. 000, 000-000; • Rebagliati, P., A.G. Papeschi, L.M. Mola (2003) Meiosis and fluorescent banding in Edessa meditabunda and E. rufomarginata (Heteroptera: Pentatomidae: Edessinae). Eur. J. Entomol. 100, 11-18; • Rhoades, M.M., W.E. Kerr (1949) A note on centromere organization. Proceedings of National Academy of Sciences 25, 129-132; • Ris, H. (1942) Acytological and experimental analysis of the meiotic behavior of the univalent X-chromosomes in the bearberry aphid Tamalia (= Phyllaphis) coweni (Ckll.). J. Exp. Zool. 90, 267-326; • Ris, H., D.P. Kubai (1970) Chromosome structure. Ann. Rev. Genet. 4, 263-294; • Rodríguez Gil, S.G., L.M. Mola, A.G. Papeschi, C.L. Scioscia (2002) Cytogenetic heterogeneity in common haplogyne spiders from Argentina (Arachnida, Araneae). Journal of Arachnology 30, 47-56; • Rufas, J.S., G. Gimenez-Martín (1986) Ultrustructure of the kinetochore of Graphosoma italicum (Hemiptera: Heteroptera). Protoplasma 132, 142-148; • Ruthmann, A., Y. Permantier (1973) Spindel und kinetochoren in der Mitose und Meiose der baumwollwanze Dysdercus intermedius (Heteroptera). Chromosoma 41, 271-288; • Schrader, F. (1935) Notes on the mitotic behavior of long chromosomes. Cytologia 6, 422-430; • Schrader, F. (1947) The role of the kinetochore in the chromosomal evolution of the Heteroptera and Homoptera. Evolution 1, 134-142; • Schrader, F., S. Hughes-Schrader (1956) Polyploidy and fragmentation in the chromosomal evolution of various species of Thyanta (Hemiptera). Chromosoma 7; • Schrader, F., S. Hughes-Schrader (1958) Chromatid autonomy in Banasa (Hemiptera:Pentatomidae). Chromosoma 9, 193-215; • Schreiber, G., A.R. Bogliolo, A.C. Pinho (1972) Cytogenetics of Triatominae: karyotype, DNA content, nuclear size and heteropyknosis of autosomes. Revista Brasilera de Biología 32, 255-263; • Shanahan, C.M. (1989) Cytogenetics of Australian scorpions. I. Interchange polymorphism on the family Buthidae. Genome 32, 882-889; • Sheikh, S.A., K. Kondo (1995) Differential staining with orcein, Giemsa, CMA and DAPI for comparative chromosome study of 12 species of Australian Drosera (Droseraceae). American Journal of Botany 82, 1278-1286; • Sheikh, S.A., K. Kondo (1996) Comparative C-banding and fluorescent- banding analysis of seven species of Drosera (Droseraceae). Cytologia 61, 383-394; • Sheikh, S.A., K. Kondo, Y. Hoshi (1995) Study on diffused centromeric nature of Drosera chromosomes. Cytologia 60, 43-47; • Snogerup, S. (1993) A revision of Juncus subgen. Juncus (Juncaceae). Wildenowia 23, 23-73; • Solari, A.J., S. Agopian (1987) Recombination nodules, synaptonemal complexes and heterochromatin in the hemipteran Triatoma infestans. Mic. Electrónica y Biol. Cel. 11, 179-195; • Souza Bueno, A.M. (1982) Estudos cromossomicos na ordern Odonata. M Sc, Univ. Estad. Paulista, Rio Claro. pp vi+140; • Spence, J.M., R.L. Blackman (1998) Orientation of the stretched univalent X chromosome during the unequal first meiotic division in male aphids. Chromosome Res. 1998, 177-181; • Spence, J.M., R.L. Blackman (2000) Inheritance and meiotic behaviour of a de novo chromosome fusion in the aphid Myzus persicae (Sulzer). Chromosoma 109, 490-497; • Spence, J.M., R.L. Blackman, J.M. Testa, P.D. Ready (1998) A 169 bp tandem repeat DNA marker for subtelomeric heterochromatin and chromosomal re-arrangement in aphids of the Myzus persicae group. Chromosome Res. 6, 167-175; • Suomalainen, E. (1953) The kinetochore and the bivalent structure in the Lepidoptera. Hereditas 39, 88-96; • Suomalainen, E. (1966) Achiasmatische oogenese bei Trichopteren. Chromosoma 18, 201-207; • Suzuki, K.J., K. Saitoh (1988) Germ-line chromosomes of two species of Davidius, with special reference to the sex chromosomes (Anisoptera, Gomphidae). Odonatologica 17, 275-280; • Swanson, C.P. (1957) Cytology and Cytogenetics. ed., Prentice-Hall, Inc., Englewood Cliffs, New Jersey, pp; • Sybenga, J. (1972) General Cytogenetics. ed., North-Holland Publishing company, Amsterdam, pp XIII+359; • Sybenga, J. (1981) Specialization in the behaviour of chromosomes on the meiotic spindle. Genetica 57, 143-151; • Sybenga, J. (1992) Cytogenetics in plant breeding. ed., pp; • Tanaka, N., N. Tanaka (1980) Chromosome studies in Chionographis (Liliaceae). 3. The mode of meiosis. Cytologia 45, 809-817; • Tempelaar, M.J. (1979) Fate of fragments and properties of translocations of holokinetic chromosomes after X-irradiation of mature sperm of Tetranychus urticae Koch (Acari, Tetranychidae). Mutation Research 63, 301-316; • Tempelaar, M.J., L.J. Drenth-Diephuis (1983) Ultrastructure of holokinetic mitotic chromosomes and interphase nuclei of Tetranychus urticae Koch (Acari, Tetranychidae) in relation to loss and missegregation of induced fragments. Chromosoma 88, 98-103; • Tombesi, M.L., A.G. papeschi, L.M. Mola (1999) Spermatogenesis in Bovicola limbata Gervais, 1844 and B. caprae Gurlt, 1843 (Phthiraptera, Ischnocera). Cytologia 64, 25-27; • Traut, W., F. Marec (1997) Sex chromosome differentiation in some species of Lepidoptera (Insecta). Chromosome Res. 5, 283-291; • Tyagi, B.K. (1982) Cytotaxonomy of the Indian dragonflies. Indian Review of Life Sciences 2; • Tyagi, B.K. (1985) Cytotaxonomy of the genus Onychogomphus selys (Odonata: Anisoptera, Gomphidae) with a special reference to the evolution of the sex determining mechanism and the reduced chromosome number in the family Gomphidae. Proceedings of the First Indian Symposium of Odonatology, 217-226; • Tyagi, B.K. (1986) Cytogenetics, karyosystematics and cytophylogeny of the Indian Odonata. Indian Review of Life Sciences 6, 215-229; • Ueshima, N. (1963) Chromosome behavior of the Cimex pilosellus complex (Cimicidae: Hemiptera). Chromosoma 14, 511-521; • Ueshima, N. (1979) Hemiptera II: Heteroptera. In: Animal Cytogenetics. B. John, eds. Berlin; • Stuttgart, Gebrüder Borntraeger. pp V+117; • Vaarama, A. (1954) Cytological observation on Pleurozium schreberi, with special reference to centromere evolution. Annals of the Botanical Society Vanamo 28, 1-59; • Vanzela, A.L.L., A. Cuadrado, N. Jouvé, M. Luceño, M. Guerra (1998) Multiple locations of the rDNA sites in holocentric chromosomes of Rhynchospora (Cyperaceae). Chromosome Res. 6, 345-349; • Vanzela, A.L.L., M. Guerra (2000) Heterochromatin differentiation in holocentric chromosomes of Rhynchospora (Cyperaceae): Genet. Mol. Biol. 23, 453-456; • White, M.J.D. (1971) The chromosomes of Hemimerus bouvieri Chopard (Dermaptera). Cnromosoma 34; • White, M.J.D. (1973) Animal cytology and evolution. 3rd. ed., Cambridge University Press, London, pp VIII+961; • White, M.J.D. (1976) Blattodea, Mantodea, Isoptera, Grylloblattodea, Phasmatodea, Dermaptera and Embioptera. In: Animal Cytogenetics. B. John, eds. Berlin-Stuttgart, Gebrüder Bornatraeger. pp; • Whitten, M.J. (1965) Chromosome numbers in some Australian leaf-hoppers (Homoptera Auchenorrhyncha). Proceedings of the Linnean Society N.S.W. 90, 78-85; • Wilson, E.B. (1905) Studies on chromosomes. II. The paired microchromosomes, idiochromosomes and heterotropic chromosomes in Hemiptera. J. Exp. Zool. 2, 507-545; • Wolf, K.W. (1994) The unique structure of lepidopteran spindles. Int. Rev. Cytol. 152, 1-48; • Wolf, K.W. (1996) Acerylation of alpha-tubulin in male meiotic spindles of Pyrrhocoris apterus, an insect with holokinetic chromosomes. Protoplasma 191, 148-157; • Wolf, K. W., J. Kyburg, R.L. Blackman (1991) The relationship between nuclear envelope-derived annulate lamellae and the asymmetric division of primary spermatocytes in aphids. Chromosoma 101, 157-168; • Wolf, K.W., K. Novák, F. Marec (1992) Chromosome structure in spermatogenesis of Anabolia furcata (Trichoptera). Genome 35, 46-52; • Wolf, K.W., K. Novák, F. Marec (1997) Kinetic organization of metaphase I bivalents in spermatogenesis of Lepidoptera and Trichoptera with small chromosome numbers. Heredity 79, 135-143; • Wolf, K.W., W. Traut (1991) Cytology of Lepidoptera. VII. The restructuring of eupyrene prophase I spermatocytes and its relationship to meiotic chromosomes and spindle organization in Ephestia kuehniella Z. Protoplasma 165, 51-63

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