Neognathae
|
|
|
|
|
|
|
|
Passeriformes Oscines |
Turdidae |
Turdus rufiventris
|
78 |
6 |
Micro |
NA |
Kretschmer et al., 2014Kretschmer R, Gunski RJ, Garnero ADV, Furo IDO, O’Brien PCM, Ferguson-Smith MA and de Oliveira EH (2014) Molecular cytogenetic characterization of multiple intrachromosomal rearrangements in two representatives of the genus Turdus (Turdidae, Passeriformes). PLoS One 9:e103338.
|
|
Turdus albicollis
|
78 |
4 |
Micro |
NA |
Kretschmer et al., 2014Kretschmer R, Gunski RJ, Garnero ADV, Furo IDO, O’Brien PCM, Ferguson-Smith MA and de Oliveira EH (2014) Molecular cytogenetic characterization of multiple intrachromosomal rearrangements in two representatives of the genus Turdus (Turdidae, Passeriformes). PLoS One 9:e103338.
|
|
Thraupidae |
Saltator similis
|
80 |
2 |
Micro |
NA |
dos Santos et al., 2015dos Santos MS, Kretschmer R, Silva FA, Ledesma MA, O’ Brien PCM, Ferguson-Smith MA, Del Valle Garnero A, de Oliveira EH and Gunski RJ (2015) Intrachromosomal rearrangements in two representatives of the genus Saltator (Thraupidae, Passeriformes) and the occurrence of heteromorphic Z chromosomes. Genetica 143:535-543.
|
|
|
Saltator aurantiirostris
|
80 |
2 |
Micro |
NA |
dos Santos et al., 2015dos Santos MS, Kretschmer R, Silva FA, Ledesma MA, O’ Brien PCM, Ferguson-Smith MA, Del Valle Garnero A, de Oliveira EH and Gunski RJ (2015) Intrachromosomal rearrangements in two representatives of the genus Saltator (Thraupidae, Passeriformes) and the occurrence of heteromorphic Z chromosomes. Genetica 143:535-543.
|
|
|
Tachyphonus coronatus*
|
80 |
2 |
Micro |
NA |
Present study |
|
|
Coryphospingus cucullatus
|
80 |
2 |
Micro |
NA |
Present study |
|
Icteridae |
Agelaioides badius
|
80 |
4 |
Micro |
NA |
Present study |
|
|
Molothrus bonariensis
|
80 |
2 |
Micro |
NA |
Present study |
|
Fringillidae |
Serinus canaria
|
80 |
4 |
Micro |
NA |
dos Santos et al., 2017dos Santos MDS, Kretschmer R, Vilches CF, Bakker A, Gahr M, O’Brien PCM, Ferguson Smith MA and de Oliveira EHC (2017) Comparative cytogenetics between two important songbird, models: the zebra finch and the canary. PLoS One 12:e170997.
|
|
Parulidae |
Basileuterus culicivorus
|
80 |
2 |
Micro |
NA |
Present study |
|
Estrildidae |
Taeniopygia guttata
|
80 |
2 |
Micro |
NA |
dos Santos et al., 2017dos Santos MDS, Kretschmer R, Vilches CF, Bakker A, Gahr M, O’Brien PCM, Ferguson Smith MA and de Oliveira EHC (2017) Comparative cytogenetics between two important songbird, models: the zebra finch and the canary. PLoS One 12:e170997.
|
|
|
Elaenia spectabilis
|
80 |
4 |
Micro |
NA |
Kretschmer et al., 2015Kretschmer R, de Oliveira EHC, dos Santos MS, Furo IDO, O’Brien PCM, Ferguson-Smith MA, del Valle Garnero and Gunski RJ (2015) Chromosome mapping of the large Elaenia (Elaenia spectabilis): evidence for a cytogenetic signature for passeriform birds? Biol J Linn Soc 115:391-398.
|
Passeriformes Suboscines |
Tyrannidae |
Pitangus sulphuratus
|
78 |
2 |
Micro |
NA |
Present study |
|
Myiarchus ferox
|
76 |
2 |
Micro |
NA |
Present study |
|
Tityridae |
Schiffornis virescens
|
82 |
2 |
Micro |
NA |
Present study |
|
Furnariidae |
Dendrocolaptes platyrostris*
|
82 |
2 |
Macro, 1th
|
P |
Present study |
|
|
Anumbius annumbi
|
82 |
2 |
Micro |
NA |
Present study |
|
|
Synallaxis albescens
|
82 |
2 |
Micro |
NA |
Present study |
|
|
Furnarius rufus*
|
82 |
2 |
Micro |
NA |
Present study |
|
|
Cranioleuca obsoleta
|
82 |
2 |
Micro |
NA |
Present study |
|
|
Syndactila rufosuperciliata
|
82 |
2 |
Micro |
NA |
Present study |
Psittaciformes |
|
Psittacus erithacus
|
62-64 |
8 |
Micro |
NA |
Seibold-Torres et al., 2015Seibold-Torres C, Owens E, Chowdhary R, Ferguson-Smith MA, Tizard I and Raudsepp T (2015) Comparative cytogenetics of the Congo African Grey Parrot (Psittacus erithacus). Cytogenet Genome Res 147:144-153.
|
Falconiformes |
Falconidae |
Falco tinnunculus
|
52 |
4 |
Micro |
NA |
Nishida et al., 2008Nishida C, Ishijima J, Kosaka A, Tanabe H, Habermann FA, Griffin DK and Matsuda Y (2008) Characterization of chromosome structures of Falconinae (Falconidae, Falconiformes, Aves) by chromosome painting and delineation of chromosome rearrangements during their differentiation. Chromosome Res 16:171-181.
|
|
|
Falco peregrinus
|
50 |
12 or 14 |
Micro |
NA |
Nishida et al., 2008Nishida C, Ishijima J, Kosaka A, Tanabe H, Habermann FA, Griffin DK and Matsuda Y (2008) Characterization of chromosome structures of Falconinae (Falconidae, Falconiformes, Aves) by chromosome painting and delineation of chromosome rearrangements during their differentiation. Chromosome Res 16:171-181.
|
|
|
Falco columbarius
|
40 |
9 |
Micro |
NA |
Nishida et al., 2008Nishida C, Ishijima J, Kosaka A, Tanabe H, Habermann FA, Griffin DK and Matsuda Y (2008) Characterization of chromosome structures of Falconinae (Falconidae, Falconiformes, Aves) by chromosome painting and delineation of chromosome rearrangements during their differentiation. Chromosome Res 16:171-181.
|
Coraciiformes |
Alcedinidae |
Chloroceryle americana
|
94 |
2 |
Micro |
NA |
Present study |
Piciformes |
Picidae |
Colaptes campestres
|
84 |
2 |
Macro, 13th
|
I |
de Oliveira et al., 2017de Oliveira TD, Kretschmer R, Bertocchi NA, Degrandi TM, de Oliveira EHC, Cioffi MDB, Garnero AD and Gunski RJ (2017) Genomic organization of repetitive DNA in woodpeckers (Aves, Piciformes): implications for karyotype and ZW sex chromosome differentiation. PLoS One 12:e169987.
|
|
|
Colaptes melanochloros
|
84 |
2 |
Macro, 13th
|
I |
de Oliveira et al., 2017de Oliveira TD, Kretschmer R, Bertocchi NA, Degrandi TM, de Oliveira EHC, Cioffi MDB, Garnero AD and Gunski RJ (2017) Genomic organization of repetitive DNA in woodpeckers (Aves, Piciformes): implications for karyotype and ZW sex chromosome differentiation. PLoS One 12:e169987.
|
|
|
Melanerpes candidus
|
64 |
2 |
Micro |
NA |
de Oliveira et al., 2017de Oliveira TD, Kretschmer R, Bertocchi NA, Degrandi TM, de Oliveira EHC, Cioffi MDB, Garnero AD and Gunski RJ (2017) Genomic organization of repetitive DNA in woodpeckers (Aves, Piciformes): implications for karyotype and ZW sex chromosome differentiation. PLoS One 12:e169987.
|
|
Ramphastidae |
Ramphastos tucanus*
|
112 |
2 |
Micro |
NA |
Present study |
Trogoniformes |
Trogonidae |
Trogon s. surrucura
|
82 |
6 |
Micro |
NA |
Degrandi et al., 2017Degrandi TM, Garnero ADV, O’Brien PCM, Ferguson-Smith MA, Kretschmer R, de Oliveira EHC and Gunski RJ (2017) Chromosome painting in Trogon s. surrucura (Aves, Trogoniformes) reveals a karyotype derived by chromosomal fissions, fusions, and inversions. Cytogenet Genome Res 151:208-215.
|
Accipitriformes Eagles |
Pandionidae |
Pandion haliaetus
|
74 |
2 |
Macro, 2th
|
P, q |
Nishida et al., 2014Nishida C, Ishishita S, Yamada K, Griffin DK and Matsuda Y (2014) Dynamic chromosome reorganization in the Osprey (Pandion haliaetus, Pandionidae, Falconiformes): Relationship between chromosome size and the chromosomal distribution of centromeric repetitive DNA sequences. Cytogenet Genome Res 142:179-189.
|
Accipitridae |
Pseudastur albicollis
|
66 |
2 |
Macro, 8th
|
P, q |
Present study |
|
|
Buteogallus urubitinga*
|
68 |
2 |
Macro, 8th
|
P, q |
Present study |
|
|
Buteo nitidus
|
68 |
2 |
Macro, 8th
|
P, q |
de Oliveira et al., 2013de Oliveira EHC, Tagliarini MM, dos Santos MS, O’ Brien PCM and Ferguson-Smith MA (2013) Chromosome painting in three species of Buteoninae: A cytogenetic signature reinforces the monophyly of south American species. PLoS One 8: e70071.) |
|
|
Rupornis magnirostris
|
68 |
2 |
Macro, 8th
|
P, q |
de Oliveira et al., 2013de Oliveira EHC, Tagliarini MM, dos Santos MS, O’ Brien PCM and Ferguson-Smith MA (2013) Chromosome painting in three species of Buteoninae: A cytogenetic signature reinforces the monophyly of south American species. PLoS One 8: e70071.
|
|
|
Buteogallus meridionalis
|
68 |
2 |
Macro, 8th
|
P, q |
de Oliveira et al., 2013de Oliveira EHC, Tagliarini MM, dos Santos MS, O’ Brien PCM and Ferguson-Smith MA (2013) Chromosome painting in three species of Buteoninae: A cytogenetic signature reinforces the monophyly of south American species. PLoS One 8: e70071.
|
|
|
Harpia harpyja
|
58 |
4 |
Macro, 6th and Micro, 25th
|
S |
Tagliarini, 2013Tagliarini MM (2013) Aplicação de pintura cromossômica em espécies da família Accipitridae (Aves, Falconiformes): Considerações filogenéticas e evolutivas. D. Sc. Thesis, Universidade Federal do Pará, Belém, http://repositorio.ufpa.br/jspui/handle/2011/5839. http://repositorio.ufpa.br/jspui/handle/...
|
|
|
Morphnus guianensis
|
82 |
2 |
Macro, 1th
|
S |
Tagliarini, 2013Tagliarini MM (2013) Aplicação de pintura cromossômica em espécies da família Accipitridae (Aves, Falconiformes): Considerações filogenéticas e evolutivas. D. Sc. Thesis, Universidade Federal do Pará, Belém, http://repositorio.ufpa.br/jspui/handle/2011/5839. http://repositorio.ufpa.br/jspui/handle/...
|
|
|
Nisaetus n. orientalis
|
66 |
2 |
Micro, 29th
|
NA |
Nishida et al., 2013Nishida C, Ishijima J, Ishishita S, Yamada K, Griffin DK, Yamazaki T and Matsuda Y (2013) Karyotype reorganization with conserved genomic compartmentalization in dot-shaped microchromosomes in the Japanese mountain Hawk-eagle (Nisaetus nipalensis orientalis, Accipitridae). Cytogenet Genome Res 141:284-294.
|
Accipitriformes Vultures |
Cathartidae |
Sarcoramphus papa
|
80 |
2 |
Micro |
NA |
Tagliarini et al., 2009Tagliarini MM, Pieczarka JC, Nagamachi CY, Rissino J and de Oliveira EHC (2009) Chromosomal analysis in Cathartidae: Distribution of heterochromatic blocks and rDNA, and phylogenetic considerations. Genetica 135:299-304.
|
|
Cathartes burrovianus
|
80 |
2 |
Micro |
NA |
Tagliarini et al., 2009Tagliarini MM, Pieczarka JC, Nagamachi CY, Rissino J and de Oliveira EHC (2009) Chromosomal analysis in Cathartidae: Distribution of heterochromatic blocks and rDNA, and phylogenetic considerations. Genetica 135:299-304.
|
|
|
Cathartes aura
|
80 |
2 |
Micro |
NA |
Tagliarini et al., 2009Tagliarini MM, Pieczarka JC, Nagamachi CY, Rissino J and de Oliveira EHC (2009) Chromosomal analysis in Cathartidae: Distribution of heterochromatic blocks and rDNA, and phylogenetic considerations. Genetica 135:299-304.
|
|
|
Gymnogyps californianus
|
80 |
2 |
Micro |
NA |
Raudsepp et al., 2002Raudsepp T, Houck ML, O’Brien PMC, Ferguson-Smith MA, Ryder OA and Chowdhary BP (2002) Cytogenetic analysis of California Condor (Gymnogyps californianus) chromosomes: comparison with chicken (Gallus gallus) macrochromosomes. Cytogenet Genome Res 98:54-60.
|
Pelecaniformes |
Ardeidae |
Syrigma sibilatrix*
|
62 |
2 |
Micro |
NA |
Present study |
Charadriiformes |
Stercorariidae |
Stercorarius antarcticus
|
84 |
2 |
Micro |
NA |
Present study |
|
Burhinidae |
Burhinus oedicnemus
|
42 |
2 |
Macro, 13th
|
I |
Nie et al., 2009Nie W, O’Brien PCM, Fu BL, Beiyuan NG, Vitaly V, Carter NP, Ferguson-Smith MA and Yang F (2009) Avian comparative genomics: reciprocal chromosome painting between domestic chicken (Gallus gallus) and the stone curlew (Burhinus oedicnemus, Charadriiformes) - an atypical species with low diploid number. Chromosome Res 17:99-113.
|
Caprimulgiformes Hummingbirds |
Trochilidae |
Amazilia versicolor
|
82 |
2 |
Micro |
NA |
Present study |
Caprimulgiformes Nigthjars |
Nyctibiidae |
Nyctibius griseus
|
86
|
2 |
Micro |
NA |
Present study |
Caprimulgidae |
Hydropsalis torquata
|
74 |
2 |
Micro |
NA |
Present study |
Cuculiformes |
Cuculidae |
Coccyzus melacoryphus
|
- |
2 |
Micro |
NA |
Present study |
|
|
Piaya cayana
|
88 |
2 |
Macro 7th
|
P, p |
Present study |
|
|
Guira guira
|
76 |
2 |
Macro, 6th
|
P, q |
Present study |
Columbiformes |
Columbidae |
Columbina talpacoti
|
76 |
2 |
Micro |
NA |
Present study, Kretschemer et al., 2018bKretschmer R, de Oliveira TD, Furo IO, Silva FAO, Gunski RJ, Garnero AV, Cioffo MB, de Oliveira EHC and de Freitas TRO (2018b) Repetitive DNAs and shrink genomes: a chromosomal analysis in nine Columbidae species (Aves, Columbiformes). Genet Mol Biol 41:98-106.
|
|
|
Zenaida auriculata
|
76 |
2 |
Micro |
NA |
Kretschemer et al., 2018bKretschmer R, de Oliveira TD, Furo IO, Silva FAO, Gunski RJ, Garnero AV, Cioffo MB, de Oliveira EHC and de Freitas TRO (2018b) Repetitive DNAs and shrink genomes: a chromosomal analysis in nine Columbidae species (Aves, Columbiformes). Genet Mol Biol 41:98-106.
|
|
|
Geotrygon montana
|
86 |
2 |
Micro |
NA |
Kretschemer et al., 2018bKretschmer R, de Oliveira TD, Furo IO, Silva FAO, Gunski RJ, Garnero AV, Cioffo MB, de Oliveira EHC and de Freitas TRO (2018b) Repetitive DNAs and shrink genomes: a chromosomal analysis in nine Columbidae species (Aves, Columbiformes). Genet Mol Biol 41:98-106.
|
|
|
Geotrygon violacea
|
86 |
2 |
Micro |
NA |
Kretschemer et al., 2018bKretschmer R, de Oliveira TD, Furo IO, Silva FAO, Gunski RJ, Garnero AV, Cioffo MB, de Oliveira EHC and de Freitas TRO (2018b) Repetitive DNAs and shrink genomes: a chromosomal analysis in nine Columbidae species (Aves, Columbiformes). Genet Mol Biol 41:98-106.
|
|
|
Leptotila verreauxi
|
78 |
2 |
Micro |
NA |
Kretschemer et al., 2018bKretschmer R, de Oliveira TD, Furo IO, Silva FAO, Gunski RJ, Garnero AV, Cioffo MB, de Oliveira EHC and de Freitas TRO (2018b) Repetitive DNAs and shrink genomes: a chromosomal analysis in nine Columbidae species (Aves, Columbiformes). Genet Mol Biol 41:98-106.
|
|
|
Patagioenas cayennensis
|
76 |
2 |
Micro |
NA |
Kretschemer et al., 2018bKretschmer R, de Oliveira TD, Furo IO, Silva FAO, Gunski RJ, Garnero AV, Cioffo MB, de Oliveira EHC and de Freitas TRO (2018b) Repetitive DNAs and shrink genomes: a chromosomal analysis in nine Columbidae species (Aves, Columbiformes). Genet Mol Biol 41:98-106.
|
|
|
Columba livia
|
80 |
2 |
Micro |
NA |
Kretschemer et al., 2018bKretschmer R, de Oliveira TD, Furo IO, Silva FAO, Gunski RJ, Garnero AV, Cioffo MB, de Oliveira EHC and de Freitas TRO (2018b) Repetitive DNAs and shrink genomes: a chromosomal analysis in nine Columbidae species (Aves, Columbiformes). Genet Mol Biol 41:98-106.
|
|
|
Columbina passerina
|
76 |
2 |
Micro |
NA |
Kretschemer et al., 2018bKretschmer R, de Oliveira TD, Furo IO, Silva FAO, Gunski RJ, Garnero AV, Cioffo MB, de Oliveira EHC and de Freitas TRO (2018b) Repetitive DNAs and shrink genomes: a chromosomal analysis in nine Columbidae species (Aves, Columbiformes). Genet Mol Biol 41:98-106.
|
|
|
Columbina picui
|
76 |
6 |
Micro |
NA |
Kretschemer et al., 2018bKretschmer R, de Oliveira TD, Furo IO, Silva FAO, Gunski RJ, Garnero AV, Cioffo MB, de Oliveira EHC and de Freitas TRO (2018b) Repetitive DNAs and shrink genomes: a chromosomal analysis in nine Columbidae species (Aves, Columbiformes). Genet Mol Biol 41:98-106.
|
Galliformes |
Phasianidae |
Coturnix japonica
|
78 |
6 |
Micro |
NA |
McPherson et al., 2014McPherson MC, Robinson CM, Gehlen LP and Delany ME (2014) Comparative cytogenomics of Poultry: Mapping of single gene and repeat loci in the Japanese quail (Coturnix japonica). Chromosome Res 22:71-83.
|
|
|
Meleagris gallopavo
|
80 |
2 |
Micro, 18th
|
NA |
McPherson et al., 2014McPherson MC, Robinson CM, Gehlen LP and Delany ME (2014) Comparative cytogenomics of Poultry: Mapping of single gene and repeat loci in the Japanese quail (Coturnix japonica). Chromosome Res 22:71-83.
|
|
|
Gallus gallus
|
78 |
2 |
Micro, 16th
|
NA |
Dyomin et al., 2016Dyomin AG, Koshel EI, Kiselev AM, Saifitdinova AF, Galkina SA, Fukagawa T, Kostareva AA and Gagiskaya ER (2016) Chicken rRNA gene cluster structure. PLoS One 11:e0157464.
|
Paleognathae
|
|
|
|
|
|
|
|
Tinamiformes |
Tinamidae |
Nothura maculosa
|
78 |
4 |
Micro |
NA |
Present study |
|
|
Eudromia elegans
|
80 |
4 |
Micro |
NA |
Nishida-Umehara et al., 2007Nishida-Umehara C, Tsuda Y, Ishijima J, Ando J, Fujiwara A, Matsuda Y and Griffin K (2007) The molecular basis of chromosome orthologies and sex chromosomal differentiation in Palaeognathous birds. Chromosome Res 15:721-734.
|
|
|
Rhynchotus rufescens
|
78 |
2 |
Micro |
NA |
Present study |
Casuariiformes |
Dromaiidae |
Dromaius novaehollandiae
|
80 |
2 |
Micro |
NA |
Nishida-Umehara et al., 2007Nishida-Umehara C, Tsuda Y, Ishijima J, Ando J, Fujiwara A, Matsuda Y and Griffin K (2007) The molecular basis of chromosome orthologies and sex chromosomal differentiation in Palaeognathous birds. Chromosome Res 15:721-734.
|
|
Casuariidae |
Casuarius casuarius
|
92 |
2 |
Micro |
NA |
Nishida-Umehara et al., 2007Nishida-Umehara C, Tsuda Y, Ishijima J, Ando J, Fujiwara A, Matsuda Y and Griffin K (2007) The molecular basis of chromosome orthologies and sex chromosomal differentiation in Palaeognathous birds. Chromosome Res 15:721-734.
|
Struthioniformes |
Struthionidae |
Struthio camelus
|
80 |
2 |
Micro |
NA |
Nishida-Umehara et al., 2007Nishida-Umehara C, Tsuda Y, Ishijima J, Ando J, Fujiwara A, Matsuda Y and Griffin K (2007) The molecular basis of chromosome orthologies and sex chromosomal differentiation in Palaeognathous birds. Chromosome Res 15:721-734.
|
Rheiformes |
Rheidae |
Rhea pennata
|
80 |
2 |
Micro |
NA |
Nishida-Umehara et al., 2007Nishida-Umehara C, Tsuda Y, Ishijima J, Ando J, Fujiwara A, Matsuda Y and Griffin K (2007) The molecular basis of chromosome orthologies and sex chromosomal differentiation in Palaeognathous birds. Chromosome Res 15:721-734.
|
|
|
Rhea americana
|
80 |
2 |
Micro |
NA |
Nishida-Umehara et al., 2007Nishida-Umehara C, Tsuda Y, Ishijima J, Ando J, Fujiwara A, Matsuda Y and Griffin K (2007) The molecular basis of chromosome orthologies and sex chromosomal differentiation in Palaeognathous birds. Chromosome Res 15:721-734.
|