Proceedings of the schistosome genome project
Proceedings of the schistosome genome project
"The host-parasite relationship" is a vast and diverse research field which, despite huge human and financial input over many years, remains largely shrouded in mystery. Clearly, the adaptation of parasites to their different host species, and to the different environmental stresses that they represent, depends on interactions with, and responses to, various molecules of host and/or parasite origin. The schistosome genome project is a primary strategy to reach the goal; this systematic research project has successfully developed novel technologies for qualitative and quantitative characterization of schistosome genes and genome organization by extensive international collaboration between top quality laboratories. Schistosomes are a family of parasitic blood flukes (Phylum Platyhelminthes), which have seven pairs of autosomal chromosomes and one pair of sex chromosomes (ZZ for a male worm and ZW for a female), of a haploid genome size of 2.7 x 10(8) base pairs (Simpson et al. 1982). Schistosomes are ideal model organisms for the development of genome mapping strategies since they have a small genome size comparable to that of well-characterized model organisms such as Caenorhabditis elegans (100 Mb) and Drosophila (165 Mb), and contain functional genes with a high level of homology to the host mammalian genes. Here we summarize the current progress in the schistosome genome project, the information of 3,047 transcribed genes (Expressed Sequence Tags; EST), complete sets of cDNA and genomic DNA libraries (including YAC and cosmid libraries) with a mapping technique to the well defined schistosome chromosomes. The schistosome genome project will further identify and characterize the key molecules that are responsible for host-parasite adaptation, i.e., successful growth, development, maturation and reproduction of the parasite within its host in the near future.
Animals, Chromosome Mapping, Chromosomes, Artificial, Yeast, Genome, Protozoan, Schistosoma/genetics
829-34
Tanaka, M
42a9c699-60c8-4542-b272-c34ea0643a25
Tanaka, Tomoo
37d93773-3e20-434d-88f3-444ecb2ade06
Inazawa, Johji
90e5321b-5cba-4f0a-8eef-a1294ad92c8d
Nagafuchi, S
52c6a62d-577d-4d12-a1a5-0cf2fcb31b0a
Mutsui, Youji
35e5f9ec-3cb5-442f-b1d4-ca169721f6fe
Kaukas, Anne
e133d717-ed9a-4ad1-935a-bd364dfb849f
Johnston, D A
b41163c9-b9d2-425c-af99-2a357204014e
Rollinson, David
917d0e09-176f-4058-89ff-ec2ad3a496ad
8 May 1998
Tanaka, M
42a9c699-60c8-4542-b272-c34ea0643a25
Tanaka, Tomoo
37d93773-3e20-434d-88f3-444ecb2ade06
Inazawa, Johji
90e5321b-5cba-4f0a-8eef-a1294ad92c8d
Nagafuchi, S
52c6a62d-577d-4d12-a1a5-0cf2fcb31b0a
Mutsui, Youji
35e5f9ec-3cb5-442f-b1d4-ca169721f6fe
Kaukas, Anne
e133d717-ed9a-4ad1-935a-bd364dfb849f
Johnston, D A
b41163c9-b9d2-425c-af99-2a357204014e
Rollinson, David
917d0e09-176f-4058-89ff-ec2ad3a496ad
Tanaka, M, Tanaka, Tomoo, Inazawa, Johji, Nagafuchi, S, Mutsui, Youji, Kaukas, Anne, Johnston, D A and Rollinson, David
(1998)
Proceedings of the schistosome genome project.
Memorias do Instituto Oswaldo Cruz, 92 (6), .
(doi:10.1590/s0074-02761997000600019).
Abstract
"The host-parasite relationship" is a vast and diverse research field which, despite huge human and financial input over many years, remains largely shrouded in mystery. Clearly, the adaptation of parasites to their different host species, and to the different environmental stresses that they represent, depends on interactions with, and responses to, various molecules of host and/or parasite origin. The schistosome genome project is a primary strategy to reach the goal; this systematic research project has successfully developed novel technologies for qualitative and quantitative characterization of schistosome genes and genome organization by extensive international collaboration between top quality laboratories. Schistosomes are a family of parasitic blood flukes (Phylum Platyhelminthes), which have seven pairs of autosomal chromosomes and one pair of sex chromosomes (ZZ for a male worm and ZW for a female), of a haploid genome size of 2.7 x 10(8) base pairs (Simpson et al. 1982). Schistosomes are ideal model organisms for the development of genome mapping strategies since they have a small genome size comparable to that of well-characterized model organisms such as Caenorhabditis elegans (100 Mb) and Drosophila (165 Mb), and contain functional genes with a high level of homology to the host mammalian genes. Here we summarize the current progress in the schistosome genome project, the information of 3,047 transcribed genes (Expressed Sequence Tags; EST), complete sets of cDNA and genomic DNA libraries (including YAC and cosmid libraries) with a mapping technique to the well defined schistosome chromosomes. The schistosome genome project will further identify and characterize the key molecules that are responsible for host-parasite adaptation, i.e., successful growth, development, maturation and reproduction of the parasite within its host in the near future.
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Accepted/In Press date: 10 September 1997
Published date: 8 May 1998
Keywords:
Animals, Chromosome Mapping, Chromosomes, Artificial, Yeast, Genome, Protozoan, Schistosoma/genetics
Identifiers
Local EPrints ID: 468957
URI: http://eprints.soton.ac.uk/id/eprint/468957
ISSN: 0074-0276
PURE UUID: 5a9a59fb-ee6e-4852-842d-360503e8d43a
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Date deposited: 02 Sep 2022 18:05
Last modified: 17 Mar 2024 03:11
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Author:
M Tanaka
Author:
Tomoo Tanaka
Author:
Johji Inazawa
Author:
S Nagafuchi
Author:
Youji Mutsui
Author:
Anne Kaukas
Author:
D A Johnston
Author:
David Rollinson
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