Wyniki wyszukiwania - AGRO

1

Electrophoretic karyotypes of Fusarium species

100%

Fekete C., Nagy R., Hornok L., Szecsi A.

Hodowla Roślin, Aklimatyzacja i Nasiennictwo

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1993

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tom 37

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nr 1-2

2

The Wilfredomys pictipes [Rodentia: Sigmodontinae] karyotype with comments on the karyosystematics of Brazilian Thomasomyini

100%

Bonvicino C. R., Otazu I.

Acta Theriologica

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1999

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tom 44

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nr 3

Karyotypic analysis of two specimens of Wilfredornys pictipes (Osgood, 1933), collected in the Atlantic forest of Sao Paulo State, Brazil, showed 2n = 36 / FN = 34. Comparative karyologic analysis indicated that W. pictipes was very different from species belonging to the tribe Oryzomyini and to the genus Delomys but similar to Rhipidomys species. These findings indicated that the tribe Thomasomyini is not a karyotypically homogeneous taxon. The low diploid number of W. pictipes is likely to be a derived trait among sigmodontine rodents.

3

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Chromosome numbers in Hieracium (Asteraceae) from Central and Southeastern Europe I.

88%

Musial K., Szelag Z.

Acta Biologica Cracoviensia. Series Botanica

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2015

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tom 57

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nr 2

4

C-banded karyotypes of some dragonfly species from Russia

88%

Perepelov E. A., Bugrov A. G., Warchalowska-Sliwa E.

Folia Biologica

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1998

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tom 46

|

nr 3-4

5

C-banded chromosomes of the genus Bembidion Latr. [Coleoptera, Carabidae]

88%

Rozek M., Lachowska D.

Folia Biologica

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2003

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tom 51

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nr 3-4

6

Karyotype study on pseudoscorpions of the genus Lasiochernes Beier [Pseudoscorpiones, Chernetidae]

88%

Stahlavsky F., Henderickx H., Kral J.

Folia Biologica

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2005

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tom 53

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nr 1-2

7

Chromosome numbers in Hieracium and Pilosella (Asteraceae) from Central and Southeastern Europe

75%

Ilnicki T., Szelag Z.

Acta Biologica Cracoviensia. Series Botanica

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2011

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tom 53

|

nr 1

Chromosome numbers of 46 Hieracium L. and Pilosella Vaill. taxa from Austria, Bulgaria, Czech Republic, Macedonia, Montenegro, Poland, Romania, Serbia and Slovakia are presented. Chromosomes numbers are given for the first time for Hieracium amphigenum Briq. 2n = 3x = 27, H. bohatschianum Zahn 2n = 4x = 36, H. borbasii R. Uechtr. 2n = 4x = 36, H. cernuum Friv. 2n = 2x = 18, H. hazslinszkyi Pax 2n = 3x = 27, H. mirekii Szeląg 2n = 4x = 36, H. polyphyllobasis (Nyár. & Zahn) Szeląg 2n = 3x = 27, H. porphyriticum A. Kern. 2n = 4x = 36, H. racemosum Waldst. & Kit. ex Willd. subsp. racemosum 2n = 3x = 27, H. scardicum Borm. & Zahn 2n = 4x = 36, H. sparsum subsp. ipekanum Rech. fil. & Zahn 2n = 4x = 36, H. sparsum subsp. peristeriense Behr & Zahn, H. sparsum subsp. squarrosobracchiatum Behr & al. 2n = 3x = 27, H. tomosense Simk. 2n = 4x = 36, H. tubulare Nyár. 2n = 4x = 36, H. werneri Szeląg 2n = 3x = 27 and Pilosella fusca subsp. subpedunculata (Zahn) Szeląg, as well as five species of Hieracium sect. Cernua R. Uechtr. not described to date and a hybrid between H. bifidum s. lat. and H. pojoritense Woł.

8

Acquired pericentric inversion of chromosome 9 in acute myeloid leukemia

75%

Udayakumar A. M., Pathare A. V., Dennison D., Raeburn J. A.

Journal of Applied Genetics

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2009

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tom 50

|

nr 1

73-76

Pericentric inversion of chromosome 9 involving the qh region is relatively common as a constitutional genetic aberration without any apparent phenotypic consequences. However, it has not been established as an acquired abnormality in cancer. Among the three patients reported so far in the literature with acquired inv(9), only one had acute myeloid leukemia (AML). Here we describe an unique case where both chromosomes 9 presented with an acquired pericentric inversion with breakpoints at 9p 13 and 9q 12 respectively, in a AML patient with aberrant CD7 and CD9 positivity. Additionally, one der(9) also showed short arm deletion at 9p21 to the centromeric region and including the p 16 gene. The constitutional karyotype was normal. This is probably the first report describing an acquired inv(9) involving both chromosomes 9 in AML. The possible significance of this inversion is discussed.

9

New contribution to the knowledge on the chromosome numbers of Turkish Cerambycidae (Coleoptera)

75%

Kocak Y., Yagmur E.

Folia Biologica

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2021

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tom 69

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nr 2

10

Genome size in Humulus lupulus L. and H. japonicus Siebold and Zucc. [Cannabaceae]

75%

Grabowska-Joachimiak A., Sliwinska E., Pigula M., Skomra U., Joachimiak A. J.

Acta Societatis Botanicorum Poloniae

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2006

|

tom 75

|

nr 3

207-214

We analysed chromosome lengths, karyotype structure, and nuclear DNA content (flow cytometry) in diploid (2n=20) and triploid (2n=30) European H. lupulus var. lupulus, American H. lupulus var. neomexicanus (2n=20) and Japanese ornamental hop, H. japonicus (F/2n=16; M/2n=17). Diploid female representatives of H. lupulus var. lupulus and H. l. var. neomexicanus differed in total length of the basal chromosome set (23.16 µm and 25.99 µm, respectively) and nuclear 2C DNA amount (5.598 pg and 6.064 pg) but showed similar karyotype structure. No deviation from the additivity, both in chromosome length and 2C DNA amount was evidenced in triploid monoecious H. lupulus (2n=30, XXY). H. japonicus showed different karyotype structure, smaller basal chromosome set (F/18.04 µm, M/20.66 µm) and lower nuclear DNA amount (F/3.208 pg and M/3.522 pg). There are first evaluations of nuclear genome size in diploid, not commercial representative of European H. lupulus var. lupulus and American H. lupulus var. neomexicanus and first attempt to determine the absolute male and female genome size in two Humulus species.

11

Karyotype and C-banding pattern of the domestic geese Anser anser populations (Aves: Anatidae) in Egypt

75%

Shahin A. A. B., Ata A. T. M., Abu Shnaf A. S. M.

Folia Biologica

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2014

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tom 62

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nr 1

12

Meiotic behaviour of chromosomes in PMCs and karyotype of Trifolium repens L. from Darjeeling Himalaya

75%

Majumdar S., Banerjee S., De K. K.

Acta Biologica Cracoviensia. Series Botanica

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2004

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tom 46

217-220

Detailed analyses of the chromosome meiotic behaviour and of mitotic metaphase chromosomes (2n = 32), as well as stainability studies of pollen fertility, were carried out in order to determine the cytological status of amphidiploid Trifolium repens L. (Dutch white clover). In amphidiploid (allotetraploid) Trifolium repens L., diploid-like meiotic behaviour of chromosomes was found, with no multivalent formation, and a normal karyotype with a single pair of chromosome having a secondary constriction was observed. These characteristics indicate favourable genetic and cytological stability in nature, and high pollen fertility further enhances its usefulness in breeding.

13

Cytological investigation of Brazilian nightshade (Solanum seaforthianum Andr.)

75%

Jagatheeswari D.

International Letters of Natural Sciences

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2014

|

tom 10

Solanum genus namely Solanum seaforthianum Andr. belongs to the Solanaceae family, and comprises only dioeciously species. These plants are distributed between 29º and 40º south. All species of this genus are diploid with chromosome numbers of 2n = 24, 28 and 30. According to literature, the basic chromosome number in this genus is x = 12, 14 and 15. Solanum genus with a chromosome complement of 2n = 30 has a symmetric karyotype with a median and sub median centromere position. Because ancestral species have a symmetric karyotype, it seems that x = 12 is the initial basic chromosome number in this genus and the x = 14 and x = 15 derived from x = 12. So it seems that diploid phenomena played an important role in evolution and speciation.

14

Low base numbers and dysploidy in annual Helichrysum Mill. [Asteraceae: Gnaphalieae]

75%

Galbany-Casals M., Susanna A., Briones J. M.

Acta Biologica Cracoviensia. Series Botanica

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2009

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tom 51

|

nr 2

107-114

We report one new base number for Helichrysum, x = 5, found in the South African species H. indicum (2n = 10), and additional evidence for the recently documented x = 4 found in several South African species: H. litorale (2n = 8), H. spiralepis (2n = 8) and H. zwartbergense (2n = 8). Dysploidy is shown as an additional evolutionary trend within the genus, apart from polyploidy which is most extensive and documented. The association of dysploidy processes with the acquisition of an annual life cycle and adaptation to aridity is discussed for these species and other plant groups

15

Chromosomes of Tachycines coreanus Yamasaki, 1969 [Orthoptera: Rhaphidophoridae, Aemodogryllinae]. Karyotype, C-bands, and NORs

75%

Warchalowska-Sliwa E., Kostia D.

Folia Biologica

|

1996

|

tom 44

|

nr 1-2

16

New Sorex araneus karyotypes from Germany and the postglacial recolonization of Central Europe

75%

Brunner H., Turni H., Kapischke H. J., Stubbe M., Vogel P.

Acta Theriologica

|

2002

|

tom 47

|

nr 3

New G-banded karyotypes from populations of the common shrew Sorex araneus Linnaeus, 1758 provide a clearer picture of the distribution of chromosome races in central Europe. As expected according to their occurrence in neighbouring countries, the Jutland (kq, no), Laska (k/o) and Drnholec (ko, nr) races are also found in Germany. A new chromosome race "Rügen" (kq) is described from this Baltic Island. Together with the previously recorded races Ulm and Mooswald (kr), six chromosome races are now known from Germany. The resulting distribution pattern is characterized by high frequencies of different race-specific metacentrics at the periphery of the country and clines with decreasing frequencies towards the centre which is occupied by the Ulm race. This race is acrocentric for all chromosome arms involved in the observed race-specific fusions and represents a buffer between the surrounding, more metacentric races. According to the present distribution of these metacentrics, a scenario for the postglacial recolonization of central Europe by S. araneus populations on three different routes is proposed: from the east along the northern slopes of the Carpathian Arc, from the south-east along the Danube Valley and from the south-west through the Upper Rhine Valley.

17

New cytogenetic data on Armenian buprestids [Coleoptera, Buprestidae] with a discussion of karyotype variation within the family

75%

Karagyan G., Kuznetsova V. G., Lachowska D.

Folia Biologica

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2004

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tom 52

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nr 3-4

18

The karyotype of the Azumi shrew Sorex hosonoi

75%

Moribe J., Noro T., Kobayashi S., Oda S.

Acta Theriologica

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2007

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tom 52

|

nr 1

Karyotype ofSorex hosonoi Imaizumi, 1954 from Mt. Asama in central Honshu, Japan, were examined with conventional staining and G-banding using ASG methods. The diploid and fundamental autosomal arm numbers were 42 and 66, respectively. The autosomes consisted of seven metacentric, six submetacentric, and seven acrocentric pairs. The sex chromosomes were large-sized acrocentric X and small-sized subtelocentric Y. The relationship between the karyotypes ofS. hosonoi andS. shinto was explained by one pericentric inversion at the no. 5 ofS. hosonoi and the no. 9 ofS. shinto. A rearrangement inS. shinto-hosonoi differed from the rearrangements occurring on no. 5 ofS. shinto-caecutiens/unguiculatus.

19

C-heterochromatin pattern of ten species of tetrigids [Tetrigidae, Orthoptera]

75%

Warchalowska-Sliwa E., Maryanska-Nadachowska A., Michailova P. V., Tchobanov D.

Folia Biologica

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2003

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tom 51

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nr 1-2

20

Infertility and marker chromosomes: Application of molecular cytogenetic techniques in a case of inv dupp.89-91,fig.,ref.

75%

Vulcani-Freitas T. M., Gil-da-Silva-Lopes V. L., Varella-Garcia M., Maciel-Guerra A. T.

Journal of Applied Genetics

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2006

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tom 47

|

nr 1

We report on a phenotypically normal man with infertility, whose 47,XY,+mar karyotype was studied by spectral karyotyping (SKY) and fluorescence in situ hybridization (FISH) using a chromosome-15-specific probe (LSI SNRPN). By these techniques, the marker chromosome was identified as a small inv dup (15). Possible causes for male infertility in this case are discussed.

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