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"karyotype"

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"karyotype"

Brief Communication

Karyological Studies of Biomphalaria tenagophila (d'Orbigny, 1835) (Gastropoda: Planobidae) from Rio de Janeiro, Brazil
Gab Man Park, Tai-Soon Yong
Korean J Parasitol 2014;52(4):449-451.
Published online August 29, 2014
DOI: https://doi.org/10.3347/kjp.2014.52.4.449

The karyotypes of Biomphalaria tenagophila collected from Rio de Janeiro, Brazil were studied using the air-drying method. Somatic cells of this species had 2n=36. The 18 chromosome pairs were identified and classified into 3 groups. The diploid cell has 7 pairs of metacentric, 8 pairs of submetacentric, and 3 pairs of subtelocentric chromosomes. Observed chromosomes ranged from 2.4 to 6.4 ?m, and the total length was 122.3 ?m. This is the first report on the chromosome of B. tenagophila.

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Original Articles

Chromosomes of the liver fluke, Clonorchis sinensis
Gab-Man Park, Kyung-il Im, Sun Huh, Tai-Soon Yong
Korean J Parasitol 2000;38(3):201-206.
Published online September 30, 2000
DOI: https://doi.org/10.3347/kjp.2000.38.3.201

A karyological study was carried out in order to compared the chromosome numbers, chromosome morphologies and karyotypes of the oriental liver fluke, Clonorchis sinensis (Trematoda: Opisthorchiidae), collected from Korea and China. Chromosome preparations were made by means of air-drying method. The chromosome number was 2n=56 in both Korean and Chinese flukes, and chromosomes were divided into two groups based on this size; consisting of 8 pairs of large and 20 pairs of small chromosomes. However, the karyotypes showed some differences between Korean and Chinese flukes. The karyotype of liver flukes from Korea consisted of three metacentric pairs, one meta-/submetacentric pair, 16 submetacentric pairs and eight subtelocentric pairs of chromosomes. On the other hand, liver flukes from China consisted of two metacentric pairs, two meta-/submetacentric pairs, 16 submetacentric pairs and eight subtelocentric pairs of chromosomes.

Citations

Citations to this article as recorded by  Crossref logo
  • An insight into the functional genomics and species classification of Eudiplozoon nipponicum (Monogenea, Diplozoidae), a haematophagous parasite of the common carp Cyprinus carpio
    Jiří Vorel, Nikol Kmentová, Christoph Hahn, Petr Bureš, Martin Kašný
    BMC Genomics.2023;[Epub]     CrossRef
  • Chromosome analysis and the occurrence of B chromosomes in fish parasite Acanthocephalus anguillae (Palaeacanthocephala: Echinorhynchida)
    Martina Orosová, Anna Marková, Magda Zrzavá, František Marec, Mikuláš Oros
    Parasite.2023; 30: 44.     CrossRef
  • Similarities and differences among the Opisthorchiidae liver flukes: insights from Opisthorchis felineus
    Maria Y. Pakharukova, Viatcheslav A. Mordvinov
    Parasitology.2022; 149(10): 1306.     CrossRef
  • High-quality reference genome for Clonorchis sinensis
    Neil D. Young, Andreas J. Stroehlein, Liina Kinkar, Tao Wang, Woon-Mok Sohn, Bill C.H. Chang, Parwinder Kaur, David Weisz, Olga Dudchenko, Erez Lieberman Aiden, Pasi K. Korhonen, Robin B. Gasser
    Genomics.2021; 113(3): 1605.     CrossRef
  • Genomics of worms, with an emphasis on Opisthorchis viverrini — opportunities for fundamental discovery and biomedical outcomes
    Robin B. Gasser, Patrick Tan, Bin Tean Teh, Sopit Wongkham, Neil D. Young
    Parasitology International.2017; 66(4): 341.     CrossRef
  • Cytogenetics of Aspidogaster limacoides (Trematoda, Aspidogastrea): karyotype, spermatocyte division, and genome size
    Marta Bombarová, Marta Špakulová, Martin Kello, Petr Nguyen, Eva Bazsalovicsová, Ivica Králová-Hromadová
    Parasitology Research.2015; 114(4): 1473.     CrossRef
  • The Fasciola hepatica genome: gene duplication and polymorphism reveals adaptation to the host environment and the capacity for rapid evolution
    Krystyna Cwiklinski, John Pius Dalton, Philippe J Dufresne, James La Course, Diana JL Williams, Jane Hodgkinson, Steve Paterson
    Genome Biology.2015;[Epub]     CrossRef
  • The Opisthorchis viverrini genome provides insights into life in the bile duct
    Neil D. Young, Niranjan Nagarajan, Suling Joyce Lin, Pasi K. Korhonen, Aaron R. Jex, Ross S. Hall, Helena Safavi-Hemami, Worasak Kaewkong, Denis Bertrand, Song Gao, Qihui Seet, Sopit Wongkham, Bin Tean Teh, Chaisiri Wongkham, Pewpan Maleewong Intapan, Wan
    Nature Communications.2014;[Epub]     CrossRef
  • Low Divergence of Clonorchis sinensis in China Based on Multilocus Analysis
    Jiufeng Sun, Yan Huang, Huaiqiu Huang, Pei Liang, Xiaoyun Wang, Qiang Mao, Jingtao Men, Wenjun Chen, Chuanhuan Deng, Chenhui Zhou, Xiaoli Lv, Juanjuan Zhou, Fan Zhang, Ran Li, Yanli Tian, Huali Lei, Chi Liang, Xuchu Hu, Jin Xu, Xuerong Li, XinbingYu, Dav
    PLoS ONE.2013; 8(6): e67006.     CrossRef
  • Genomics and molecular genetics of Clonorchis sinensis: Current status and perspectives
    Si-Yang Huang, Guang-Hui Zhao, Bao-Quan Fu, Min-Jun Xu, Chun-Ren Wang, Song-Ming Wu, Feng-Cai Zou, Xing-Quan Zhu
    Parasitology International.2012; 61(1): 71.     CrossRef
  • Clarification of the systematic position ofCercariaeum crassumWesenberg-Lund, 1934 (Digenea), based on karyological analysis and DNA sequences
    R. Petkevičiūtė, V. Stunžėnas, G. Stanevičiūtė
    Journal of Helminthology.2012; 86(3): 293.     CrossRef
  • Comparative cytogenetics of opisthorchid species (Trematoda, Opisthorchiidae)
    Kira S. Zadesenets, Alexei V. Katokhin, Viatcheslav A. Mordvinov, Nikolay B. Rubtsov
    Parasitology International.2012; 61(1): 87.     CrossRef
  • Functional Genes and Proteins of Clonorchis sinensis
    Tae Im Kim, Byoung-Kuk Na, Sung-Jong Hong
    The Korean Journal of Parasitology.2009; 47(Suppl): S59.     CrossRef
  • Molecular genetic profiles among individual Clonorchis sinensis adults collected from cats in two geographic regions of China revealed by RAPD and MGE-PCR methods
    De-Hua Lai, Qiao-Ping Wang, Wen Chen, Lian-Shun Cai, Zhong-Dao Wu, Xing-Quan Zhu, Zhao-Rong Lun
    Acta Tropica.2008; 107(2): 213.     CrossRef
  • Genetic comparison of liver flukes, Clonorchis sinensis and Opisthorchis viverrini, based on rDNA and mtDNA gene sequences
    Gab-Man Park
    Parasitology Research.2007; 100(2): 351.     CrossRef
  • Gene discovery for the carcinogenic human liver fluke, Opisthorchis viverrini
    Thewarach Laha, Porntip Pinlaor, Jason Mulvenna, Banchob Sripa, Manop Sripa, Michael J Smout, Robin B Gasser, Paul J Brindley, Alex Loukas
    BMC Genomics.2007;[Epub]     CrossRef
  • Clonorchiasis: an update
    H.-J. Rim
    Journal of Helminthology.2005; 79(3): 269.     CrossRef
  • Effects of gamma-irradiation on the infectivity and chromosome aberration of Clonorchis sinensis
    Gab-Man Park, Tai-Soon Yong
    The Korean Journal of Parasitology.2003; 41(1): 41.     CrossRef
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Genetic heterogeneity of Pneumocystis carinii from rats of several regions and strains
Byung-Suk Chung, Yun-Kyu Pars, Sun Huh, Jae-Ran Yu, Jin Kim, Xiaohua Shi, Sang Rock Cho, Soon-Hyung Lee, Sung-Tae Hong
Korean J Parasitol 2000;38(3):151-158.
Published online September 30, 2000
DOI: https://doi.org/10.3347/kjp.2000.38.3.151

Pneumocystis carinii is a major opportunistic pathogen which has been found in the lungs of a wide variety of mammalian host species, and the fact suggests the possibility of intraspecific variation. Until now, P. carinii from different mammalian species are differentiated as subspecies, and the rats are known to be infected by two subspecies. The present study investigated genetic heterogeneity of P. carinii isolates from two strains of rats in Korea and China by molecular karyotyping, RFLP and sequencing analysis. Karyotypes of P. carinii were grouped into three, two from two strains of rats in Korea and one from rats in China. However RFLP of PCR product of ribosomal and MSG gene of the P. carinii isolates showed same pattern. The sequence homology rates of α-tubulin DNA of the P. carinii isolates were 96% in Seoul Wistar rats, 93% in Seoul Sprague-Dawley rats, and 85% in Chinese Sprague-Dawley rats. The present finding confirmed that P. carinii from rats in Korea are grouped into two karyotype strains which are different from that of P. carinii from rats in China. The Chinese isolate shows a little different sequences of α-tubulin DNA.

Citations

Citations to this article as recorded by  Crossref logo
  • Intraspecific variability in several isolates of Philasterides dicentrarchi (syn. Miamiensis avidus), a scuticociliate parasite of farmed turbot
    Belén Budiño, Jesús Lamas, María P. Pata, Juan A. Arranz, Manuel L. Sanmartín, José Leiro
    Veterinary Parasitology.2011; 175(3-4): 260.     CrossRef
  • Analysis of Internal Transcribed Spacer 1 Sequences of Pneumocystis jiroveci from Clinical Specimens
    Jae-Seok Kim, Yong-Kyun Kim, Ji Young Park, Eun Kyung Mo, Han Sung Kim, Wonkeun Song, Hyoun Chan Cho, Kyu Man Lee
    Chonnam Medical Journal.2008; 44(2): 82.     CrossRef
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Karyotypes of Pneumocystis carinii derived from several mammals
Sang Rock Cho, Yun-Gyu Park, Hyung Nam Moon, Soon-Hyung Lee, Sung-Tae Hong
Korean J Parasitol 1999;37(4):271-275.
Published online December 31, 1999
DOI: https://doi.org/10.3347/kjp.1999.37.4.271

Pneumocystis carinii is the most important opportunistic pathogen of humans in the world. Pneumocystis carinii is experimentally detected in the lungs of rats, mice, rabbits, and monkeys, however, the organisms from different mammals are identical in microscopic morphology. The present study tried to find out more mammalian hosts of P. carinii and also to differentiate the organisms from different mammals by karyotyping. Rats, mice, hamsters, rabbits, cats, and dogs were successfully infected by P. carinii, but guinea pigs and pigs were not. Karyotype of P. carinii from rabbits showed similar size range of chromosomes with that of the prototype, but in different pattern. The patterns from cats and dogs were also different from that of rats. The present study confirms that cats and dogs are infected by P. carinii and at least total three karyotype strains of P. carinii are proven in Korea.

Citations

Citations to this article as recorded by  Crossref logo
  • Axenic Long-Term Cultivation of Pneumocystis jirovecii
    Diana Riebold, Marie Mahnkopf, Kristina Wicht, Cristina Zubiria-Barrera, Jan Heise, Marcus Frank, Daniel Misch, Torsten Bauer, Hartmut Stocker, Hortense Slevogt
    Journal of Fungi.2023; 9(9): 903.     CrossRef
  • Respiratory Diseases in Guinea Pigs, Chinchillas and Degus
    María Ardiaca García, Andrés Montesinos Barceló, Cristina Bonvehí Nadeu, Vladimír Jekl
    Veterinary Clinics of North America: Exotic Animal Practice.2021; 24(2): 419.     CrossRef
  • Molecular detection ofPneumocystisin the lungs of cats
    Patrizia Danesi, Michela Corrò, Christian Falcaro, Antonio Carminato, Tommaso Furlanello, Monia Cocchi, Mark B Krockenberger, Wieland Meyer, Gioia Capelli, Richard Malik
    Medical Mycology.2018;[Epub]     CrossRef
  • Pneumocystis: from a doubtful unique entity to a group of highly diversified fungal species
    Magali Chabé, Cécile-Marie Aliouat-Denis, Laurence Delhaes, El Moukhtar Aliouat, Eric Viscogliosi, Eduardo Dei-Cas
    FEMS Yeast Research.2011; 11(1): 2.     CrossRef
  • Analysis of Internal Transcribed Spacer 1 Sequences of Pneumocystis jiroveci from Clinical Specimens
    Jae-Seok Kim, Yong-Kyun Kim, Ji Young Park, Eun Kyung Mo, Han Sung Kim, Wonkeun Song, Hyoun Chan Cho, Kyu Man Lee
    Chonnam Medical Journal.2008; 44(2): 82.     CrossRef
  • Pneumocystis species, co-evolution and pathogenic power
    Cécile-Marie Aliouat-Denis, Magali Chabé, Christine Demanche, El Moukhtar Aliouat, Eric Viscogliosi, Jacques Guillot, Laurence Delhaes, Eduardo Dei-Cas
    Infection, Genetics and Evolution.2008; 8(5): 708.     CrossRef
  • Pneumocystis
    James R. Stringer
    International Journal of Medical Microbiology.2002; 292(5-6): 391.     CrossRef
  • Genetic heterogeneity of Pneumocystis carinii from rats of several regions and strains
    Byung-Suk Chung, Yun-Kyu Pars, Sun Huh, Jae-Ran Yu, Jin Kim, Xiaohua Shi, Sang Rock Cho, Soon-Hyung Lee, Sung-Tae Hong
    The Korean Journal of Parasitology.2000; 38(3): 151.     CrossRef
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Karyotypes on three species of Chinese mesogastropod snails, Semisulcospira libertina, S. dolichostoma and Viviparus rivularis
Gab-Man Park, Jae-Jin Kim, Pyung-Rim Chung, Yong Wang, Duk-Young Min
Korean J Parasitol 1999;37(1):5-11.
Published online March 31, 1999
DOI: https://doi.org/10.3347/kjp.1999.37.1.5

Three species of the families Viviparidae and Pleuroceridae, the first intermediate host of paragonimiasis, metagonimiasis and echinostomiasis were studied cytologically. The observed diploid chromosome number was as follows: Semisulcospira libertina 36, S. dolichostoma 34, and Viviparus rivularis 64. The mitotic chromosome complement of S. libertina has nine metacentric pairs and nine submetacentric pairs, and S. dolichostoma has three metacentric pairs and 14 submetacentric pairs of chromosomes. Viviparus rivularis showed two metacentric pairs and 30 submetacentric pairs of chromosomes.

Citations

Citations to this article as recorded by  Crossref logo
  • An adaptable chromosome preparation methodology for use in invertebrate research organisms
    Longhua Guo, Alice Accorsi, Shuonan He, Carlos Guerrero-Hernández, Shamilene Sivagnanam, Sean McKinney, Matthew Gibson, Alejandro Sánchez Alvarado
    BMC Biology.2018;[Epub]     CrossRef
  • Blood glycemia-modulating effects of melanian snail protein hydrolysates in mice with type II diabetes
    Jae-Suk Choi, Joo-Wan Kim, Jeong Been Park, Sang Eun Pyo, Yong-Ki Hong, Sae Kwang Ku, Mi-Ryung Kim
    International Journal of Molecular Medicine.2017; 39(6): 1437.     CrossRef
  • Karyotype of Arion vulgaris Moquin-Tandon, 1856 (Gastropoda: Pulmonata: Arionidae)
    Alexandr V. Garbar, Natalia S. Kadlubovska
    Folia Malacologica.2014;[Epub]     CrossRef
  • 9,610 View
  • 73 Download
  • Crossref
Brief Communication
Karyotype analysis of Neodiplostomum seoulense
Gab-Man Park, Soo-Ung Lee, Hyun-Young Park, Sun Huh
Korean J Parasitol 1998;36(4):277-279.
Published online December 20, 1998
DOI: https://doi.org/10.3347/kjp.1998.36.4.277

A karyotype analysis of the chromosome of Neodiplostomum seoulense, one of causative agents of human intestinal trematodiasis, was done from the gonad tissue by the squashing method. The chromosome number was n = 10 and 2n = 20. Chromosome length was 1.30-4.0 ?m. Chromosome pairs in the complement consisted of two pairs of metacentric, five pairs of submetacentrics/subtelocentric and three pairs of telocentric chromosomes. These data were comparable with those of other intestinal trematodes.

Citations

Citations to this article as recorded by  Crossref logo
  • Occurrence of a Diploid Type and a New First Intermediate Host of a Human Lung Fluke, Paragonimus westermani, in Korea
    Gab Man Park, K.J. Lee, K.I. Im, H. Park, T.S. Yong
    Experimental Parasitology.2001; 99(4): 206.     CrossRef
  • Chromosomes of the liver fluke, Clonorchis sinensis
    Gab-Man Park, Kyung-il Im, Sun Huh, Tai-Soon Yong
    The Korean Journal of Parasitology.2000; 38(3): 201.     CrossRef
  • A cytogenetic study on human intestinal trematodes of the genus Metagonimus (Digenea: Heterophyidae) in Korea
    Soo-Ung Lee, Sun Huh, Gab-Man Park, Jong-Yil Chai
    The Korean Journal of Parasitology.1999; 37(4): 237.     CrossRef
  • 7,886 View
  • 118 Download
  • Crossref
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PHD : Parasites, Hosts and Diseases