CHROMOSOME MORPHOLOGY OF POA TRIVIALIS L.

M. K. Ahmed; G. Jelenkovic; W. R. Dickson; C. R. Funk

doi:10.1139/g72-036

Chromosome morphology of Clematis, subsection Viornae (Ranunculaceae)

Canadian Journal of Botany ◽

10.1139/b76-122 ◽

1976 ◽

Vol 54 (10) ◽

pp. 1135-1139 ◽

Cited By ~ 5

Author(s):

W. Michael Dennis

Keyword(s):

Chromosome Number ◽

Somatic Chromosome ◽

Chromosome Complement ◽

Chromosome Morphology ◽

Terminal Region ◽

Somatic Chromosome Number ◽

Median Region ◽

Acrocentric Chromosomes ◽

Subterminal Region ◽

Marked Stability

Cytological studies were made on the following taxa: C. addisonii, C. filifera, C. glaucophylla, C. pitcheri, C. reticulata, C. texensis, C. versicolor, and C. viorna. All species were found to have a somatic chromosome number of 16 with a uniform karyotype consisting of five pairs of metacentric chromosomes with centromeres in the median region and three pairs of acrocentric chromosomes, two pairs with centromeres in the terminal region and one pair with centromeres in the subterminal region. These findings agree with reports of chromosome number and karyotype for other species of Clematis and suggest a marked stability of chromosome complement in the genus.

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Redescription of the karyotype of five species of the family Bufonidae (Amphibia: Anura) from central area of Argentina

Biologia ◽

10.2478/s11756-011-0048-8 ◽

2011 ◽

Vol 66 (3) ◽

Cited By ~ 3

Author(s):

Mariana Baraquet ◽

Julián Valetti ◽

Nancy Salas ◽

Adolfo Martino

Keyword(s):

Significant Contribution ◽

Average Length ◽

Chromosome Complement ◽

Central Area ◽

Chromosome Length ◽

Chromosome Morphology ◽

Morphometric Parameters ◽

Classification Rate ◽

The Family ◽

Karyotype Formula

AbstractIn this study karyotypic features of the five species of the family Bufonidae from the central area of Argentina are described. The species are Rhinella achalensis, Rhinella arenarum, Rhinella fernandezae, Rhinella schneideri and Melanophryniscus stelzneri. The metaphases were obtained from intestinal and testis cells, using conventional techniques. Twenty metaphasic figures per individual were analyzed and the total length of each chromosome and the length of the four arms were measured. The obtained measurements were processed using Excel 2000 to obtain the average length of the arms p and q, the arm ratio, the centromeric index, the relative chromosome length and the relative arm length. All species showed karyotype 2n = 22, and karyotype formula of 6: 5. Pairs one to six were large, with a relative chromosome length between 18.64–7.59%; pairs seven to eleven were small, with a relative chromosome length between 7.18–2.42%. In all species the chromosome morphology was metacentric or submetacentric. Karyotype and ideograms were made for all species, based on morphometric parameters of the chromosome complement. Finally, discriminant analysis was used to separate the five species analyzed, with a highly significant classification rate of 80% and P < 0.0001. These results agree, in general, with those presented by other authors, however, in M. stelzneri detailed karyological studied have not been made so far, thus this work represents a significant contribution to the karyotypic decryption features of this species and the Rhinellla species from central area of Argentina.

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Nucleic acid content and Chromosome morphology in Chrysanthemum

Genetics Research ◽

10.1017/s0016672300002937 ◽

1969 ◽

Vol 13 (3) ◽

pp. 241-250 ◽

Cited By ~ 15

Author(s):

G. J. Dowrick ◽

A. S. El Bayoumi

Keyword(s):

Nucleic Acid ◽

Chromosome Number ◽

Dna Content ◽

Chromosome Numbers ◽

Chromosome Length ◽

Chromosome Morphology ◽

Nucleic Acid Content ◽

Chromosome Size ◽

Dna Contents ◽

The Relationship

1. The DNA contents of twenty-eight different species and forms of Chrysanthemum have been measured by photometry. It is shown that there are large differences in DNA content between some species with identical chromosome numbers.2. The DNA contents of natural polyploids are frequently not those expected when comparison is made with diploid forms of the same species. The DNA contents of induced polyploids are those expected.3. Chromosome length and volume are positively correlated with DNA content.4. The relationship between chromosome number, chromosome size, DNA content and gene number is considered, and it is suggested that the differences in DNA content may result from the presence of differing amounts of genetically inactive DNA in the chromosomes.

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Karyotype analysis in Chaerophyllum cicutaria Vill. with special emphasis on satellited chromosomes

Acta Societatis Botanicorum Poloniae ◽

10.5586/asbp.1987.007 ◽

2014 ◽

Vol 56 (1) ◽

pp. 61-72

Author(s):

Włodzimierz Chojnacki ◽

Jerzy Bohdanowicz

Keyword(s):

Chromosome Number ◽

Karyotype Analysis ◽

Natural Populations ◽

Chromosome Complement ◽

Chromosome Morphology ◽

Single Pair

Karyological studies were carried out on plants of <em>Chaerophyllum cicutaria (Umbelliferae)</em>, which came from both lowland and montane natural populations. The chromosome number in all the examined plants was 2n = 22 and their karyotypes, though similar in general, showed some minute but distinct differences. There was` a single pair of SAT chromosomes in the chromosome complement. They had compound satellites divided into two or three segments. Seven morphological types of SAT chromosomes differing in number and size of satellite segments were distinguished. With respect to SAT chromosome morphology, the species showed both intra- and interpopulational karyological variation.

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Aspidistra revoluta, a new species from limestone areas in Chongqing, China

Phytotaxa ◽

10.11646/phytotaxa.257.3.6 ◽

2016 ◽

Vol 257 (3) ◽

pp. 280 ◽

Cited By ~ 2

Author(s):

Hao Zhou ◽

Si-rong Yi ◽

Qi Gao ◽

Jie Huang ◽

Yu-jing Wei

Keyword(s):

New Species ◽

Chromosome Number ◽

Average Length ◽

Chromosome Complement ◽

Pollen Grains ◽

The Other ◽

Morphological Comparison ◽

Chongqing Municipality ◽

Karyotype Asymmetry ◽

A New Species

Aspidistra revoluta (Asparagaceae) is described and illustrated as a new species from limestone areas in southern Chongqing Municipality, China. The new species can be distinguished from the other Aspidistra species by its unique umbrella-like pistil with large revolute stigma lobes that bent downwards and touch the base of the perigone. A detailed morphological comparison among A. revoluta, A. nanchuanensis and A. carnosa is provided. The pollen grains of A. revoluta are subspherical and inaperturate, with verrucous exine. The chromosome number is 2n = 38, and the karyotype is formulated as 2n = 22m + 6sm + 10st. The average length of chromosome complement is 4.50 μm, and the karyotype asymmetry indexes A1 and A2 are respectively 0.37±0.03 and 0.49±0.01.

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Comparative Karyotype Investigations in the European Crayfish Astacus astacus and A. leptodactylus (Decapoda, Astacidae)

Crustaceana ◽

10.1163/156854011x607015 ◽

2011 ◽

Vol 84 (12-13) ◽

pp. 1497-1510 ◽

Cited By ~ 7

Author(s):

M. Pavlica ◽

M. Mcžić ◽

G. Klobučar ◽

M. Šrut ◽

I. Maguire ◽

...

Keyword(s):

Chromosome Number ◽

Chromosome Complement ◽

Size Difference ◽

45S Rdna ◽

Astacus Astacus ◽

Fluorochrome Staining ◽

Rdna Sites ◽

Freshwater Habitats ◽

Acrocentric Chromosomes

AbstractThis study reports on the chromosome number and karyological characteristics of the endangered species of European crayfish, Astacus astacus and A. leptodactylus (Decapoda, Astacidae), both native to Croatian freshwater habitats. The karyotype of A. astacus and A. leptodactylus consists of 2n = 176 and 2n = 180 chromosomes, respectively. The haploid chromosome complement of A. astacus consists of 52 metacentric, 35 metacentric-submetacentric, and 1 acrocentric chromosomes. Fluorochrome staining with 4,6-diamino-2-phenylindole (DAPI) has revealed that the karyotypes of A. astacus and A. leptodactylus are characterized by large heterochromatic blocks located at centromeric and intercalary positions on the chromosomes. Interstitial heterochromatic blocks were more frequent in A. astacus than in A. leptodactylus. In both species pairing of chromosomes in meiosis was regular with the majority of bivalents in a ring- and a dumbbell-form. Fluorescence in situ hybridization (FISH) has revealed that two 45S rDNA loci were present in the investigated species. In A. astacus one of the two 45S rDNA-bearing chromosome pairs was highly heteromorphic, exhibiting a three-fold size difference between 45S rDNA sites on homologous chromosomes. Such a size difference was significantly less pronounced in A. leptodactylus. The karyotype differences between A. astacus and A. leptodactylus suggest changes in chromosome number as well as position of repetitive DNAs have played a role in the karyotype evolution of the species of Astacus.

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Karyotypes of three species of Hyperophora Brunner von Wattenwyl, 1878 (Tettigoniidae, Phaneropterinae) enable morphologically similar species to be distinguished

Comparative Cytogenetics ◽

10.3897/compcytogen.v13i1.31803 ◽

2019 ◽

Vol 13 (1) ◽

pp. 87-93 ◽

Cited By ~ 1

Author(s):

Bruno Cansanção Silva ◽

Lucas Henrique Bonfim Souza ◽

Juliana Chamorro-Rengifo ◽

Douglas Araujo

Keyword(s):

Chromosome Number ◽

Diploid Number ◽

Sex Chromosome ◽

Acrocentric Chromosome ◽

Chromosome Morphology ◽

Similar Species ◽

Cerrado Biome ◽

Cytogenetic Studies ◽

Sex Chromosome System ◽

The Difference

Phaneropterinae is the largest subfamily of Tettigoniidae, distributed across the globe. There are few cytogenetic studies regarding this group, as in the case of the genus group Aniarae, which represents only two karyotyped species. The current study aims to analyze cytogenetically three species of Hyperophora Brunner von Wattenwyl, 1878 from Brazil. The male diploid number of Hyperophoraminor Brunner von Wattenwyl, 1891 and Hyperophoramajor Brunner von Wattenwyl, 1878 is 2n♂= 31, whereas Hyperophorabrasiliensis Brunner von Wattenwyl, 1878 has shown 2n♂= 29. These three species possess an X0 sex chromosome system and telo/acrocentric chromosome morphology. The only species found in the Pantanal biome, H.brasiliensis, can be chromosomally distinguished from the Cerrado biome species H.major and H.minor, due to the difference in chromosome number (2n♂= 29 and 2n♂= 31, respectively).

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A KARYOSYSTEMATIC INVESTIGATION IN THE GRAMINEAE

Canadian Journal of Research ◽

10.1139/cjr34-087 ◽

1934 ◽

Vol 11 (2) ◽

pp. 213-241 ◽

Cited By ~ 49

Author(s):

A. W. S. Hunter

Keyword(s):

Chromosome Number ◽

Basic Number ◽

Chromosome Morphology ◽

The Other ◽

Anthoxanthum Odoratum ◽

Large Genus ◽

Taxonomic Studies ◽

Different Characteristics ◽

First Time

The history and the present state of the classification of the Gramineae are briefly reviewed and a number of the different characteristics on which phylogenetic systems have been based are considered. The subjects of chromosome morphology and the application of idiograms and karyotypes to taxonomic studies are discussed. Avdulov's recently reported findings on the phylogeny of the grasses are summarized and compared with the results of other workers and those obtained in the present investigation. Three species of bamboos were studied for the first time and evidence secured to indicate that the basic number of the tribe is probably not 12 as has been elsewhere reported. In the Festuceae the chromosome number of Phragmites communis Trin. was definitely ascertained, confirming Avdulov's supposition that the basic number for the genus is 12. The other three species investigated agreed with the arrangement as proposed by Avdulov. The tribe Chlorideae, with the exception of the genus Beckmannia, has been reported to be almost entirely Panicoid with respect to chromosome morphology. This was confirmed in the four species examined. Avdulov's rearrangement of the tribe Hordeae was somewhat altered and a confusion m the nomenclature of the genus Lepturus was corrected. An anomalous situation was cleared up in the tribe Agrostideae by the establishment of the chromosome number of Sporobolus tennuissinus Kuntz as 40. The specimen of Anthoxanthum odoratum L. (tribe Phalarideae) examined provided a very interesting example of secondary splitting in somatic chromosomes. One species was examined in the tribe Melinideae and six in the tribe Paniceae. In the latter tribe no difference could be detected between the several subdivisions of the genus Panicum. The same condition held for the large genus Andropogon in the tribe Andropogoneae. In the tribe Maydeae the chromosome number of Tripsacum dactyloides L. was found to be 9, and the suggestion was made that it may be a link, along with the genus Coix, between the Andropogoneae and the Maydeae. The other four species examined all had a basic number of 10.

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Karyotype analysis with orcein and CMA in two species of Alocasia (Schott) G. Don (Araceae)

Bangladesh Journal of Botany ◽

10.3329/bjb.v40i1.7998 ◽

1970 ◽

Vol 40 (1) ◽

pp. 53-56 ◽

Cited By ~ 14

Author(s):

Syeda Sharmeen Sultana ◽

Hosne Ara ◽

Sheikh Shamimul Alam

Keyword(s):

Chromosome Number ◽

Key Words ◽

Karyotype Analysis ◽

Chromosome Complement ◽

Taxonomic Status ◽

The Other ◽

First Report ◽

Total Length ◽

Internet Information ◽

Chromosomal Length

Alocasia fallax Schott and A. odora (Roxb.) Koch (Araceae) were investigated cytogenetically to confirm their taxonomic status. There is no report of 2n chromosome number for A. fallax in the available literature and internet information. Therefore the 2n chromosome number (2n = 28) found in this study is probably the first report for A. fallax. Alocasia odora showed exactly double 2n chromosome number (2n = 56) from A. fallax. In addition to chromosome number, the other karyotypic features of A. odora were exactly double for that of A. fallax. The centromeric formulae of A. fallax was 24 m + 4 sm whereas it is just double in A. odora. Total length of 2n chromosome complement of A. odora (62.58 μm) was almost double to A. fallax. The range of chromosomal length of the two species was almost same. Moreover, A. odora plant is much taller than A. fallax. All of these data suggests that A. odora might be an autotetraploid of A. fallax which in course of evolution had undergone some changes in GC-rich repeats. Key words: Alocasia; CMA; Karyotype analysis DOI: http://dx.doi.org/10.3329/bjb.v40i1.7998 Bangladesh J. Bot. 40(1): 53-56, 2011 (June)

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Karyotypic Analysis of four Species of Genus Blumea (Asteraceae) from Nepal

International Journal of Applied Sciences and Biotechnology ◽

10.3126/ijasbt.v6i2.20414 ◽

2018 ◽

Vol 6 (2) ◽

pp. 115-121

Author(s):

Pushpa Karna Mallick

Keyword(s):

Chromosome Number ◽

Structural Variation ◽

Chromosome Length ◽

Evolutionary Significance ◽

Satellite Chromosome ◽

Middle Point ◽

Karyotypic Analysis ◽

The Family ◽

Karyotype Formula ◽

Blumea Lacera

In this study chromosome number determination and karyotype analysis of four species of genus Blumea from the family asteraceae was carried out. The specimen plants were collected from central parts of Nepal, namely Blumea fistulosa (Roxb.) Kurz, Blumea lacera var.glandulosa (DC.) Hook, Blumea lacera (Buem f.) DC. and Blumea laciniata DC were observed. The chromosome number in somatic cells were recorded to be 2n= 22 in Blumea fistulosa; 2n= 32 in Blumea lacera var.glandulosa; 2n=18 in Blumea lacera and Blumea laciniata. The range of chromosome length found to be 0.6 to 1.6 µm in Blumea fistulosa, 0.6 to 1.6µm in Blumea lacera var.glandulosa, 0.6 to 1.7 µm in Blumea lacera and 0.8 to 1.6 µm in Blumea laciniata. Karyotype formula for Blumea fistulosa is M12+ sm10, for Blumea lacera var. glandulosa is M14+sm14+ st4, for Blumea lacera is M14+ st2 and for Blumea laciniata is M12+ sm6 in Blumea laciniata. In this investigation a pair of satellite chromosome found in only one species Blumea fistulosa at the end of shot arm of chromosome. Mainly three types of chromosomes observed in this study having centromere at middle point, at sub-median region and at sub-terminal region. Numerical and structural variation in chromosome are evolutionary significance. Similarity in size of chromosomes and karyomorphology indicates the homogeneity of the taxa within this tribe. Int. J. Appl. Sci. Biotechnol. Vol 6(2): 115-121

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