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Earning from the sea: the current status of the biotechnology of drugs from the sea. <i>Mar. Biotechnol. 8(6)</i>: 569-571","StandardTitle":"Earning from the sea: the current status of the biotechnology of drugs from the sea","AuthorsString":"Pietra, F.","BibLvlCode":"AS"},{"BRefID":123743,"RR":"<b>Kiseleva, M.I.; Balabanova, L.A.; Rasskazov, V.A.; Zvyagintseva, T.N.</b> (2008). Effect of 1,3;1,6-ß-D-glucans on developing sea urchin embryos. <i>Mar. Biotechnol. 10(4)</i>: 466-470. <a href=\"http://dx.doi.org/10.1007/s10126-008-9082-0\" target=\"_blank\">http://dx.doi.org/10.1007/s10126-008-9082-0</a>","StandardTitle":"Effect of 1,3;1,6-ß-D-glucans on developing sea urchin embryos","AuthorsString":"Kiseleva, M.I. <i>et al.</i>","BibLvlCode":"AS"},{"BRefID":77989,"RR":"<b>Hermann, A.C.; Kim, C.H.</b> (2005). Effects of arsenic on zebrafish innate immune system. <i>Mar. 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Biotechnol. 7(3)</i>: 135-141","StandardTitle":"Fishing for answers with transposons","AuthorsString":"Wadman, S.A.; Clark, K.J.; Hackett, P.B.","BibLvlCode":"AS"},{"BRefID":113501,"RR":"<b>Mocz, G.</b> (2007). Fluorescent proteins and their use in marine biosciences, biotechnology, and proteomics. <i>Mar. Biotechnol. 9(3)</i>: 305-328. <a href=\"http://dx.doi.org/10.1007/s10126-006-7145-7\" target=\"_blank\">http://dx.doi.org/10.1007/s10126-006-7145-7</a>","StandardTitle":"Fluorescent proteins and their use in marine biosciences, biotechnology, and proteomics","AuthorsString":"Mocz, G.","BibLvlCode":"AS"},{"BRefID":77986,"RR":"<b>Lidie, K.B.; Ryan, J.C.; Barbier, M.; Van Dolah, F.M.</b> (2005). Gene expression in Florida red tide dinoflagellate <i>Karenia brevis</i>: analysis of an expressed sequence tag library and development of DNA microarray. <i>Mar. 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Gene expression patterns during the larval development of European sea bass (<i>Dicentrarchus labrax)</i> by microarray analysis. <i>Mar. Biotechnol. 10(4)</i>: 416-428. <a href=\"https://dx.doi.org/10.1007/s10126-007-9078-1\" target=\"_blank\">https://dx.doi.org/10.1007/s10126-007-9078-1</a>","StandardTitle":"Gene expression patterns during the larval development of European sea bass (<i>Dicentrarchus labrax)</i> by microarray analysis","AuthorsString":"Darias, M.J. <i>et al.</i>","BibLvlCode":"AS"},{"BRefID":134074,"RR":"<b>Fagutao, F.F.; Yasuike, M.; Caipang, C.M.; Kondo, H.; Hirono, I.; Takahashi, Y.; Aoki, T.</b> (2008). Gene expression profile of hemocytes of kuruma shrimp, <i>Marsupenaeus japonicus</i> following peptidoglycan stimulation. <i>Mar. 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Genetic differences between hatchery stocks and natural populations in Pacific abalone (<i>Haliotis discus</i>) estimated using microsatellite DNA markers. <i>Mar. Biotechnol. 9(1)</i>: 74-81. <a href=\"http://dx.doi.org/10.1007/s10126-006-6060-2\" target=\"_blank\">http://dx.doi.org/10.1007/s10126-006-6060-2</a>","StandardTitle":"Genetic differences between hatchery stocks and natural populations in Pacific abalone (<i>Haliotis discus</i>) estimated using microsatellite DNA markers","AuthorsString":"Hara, M.; Sekino, M.","BibLvlCode":"AS"},{"BRefID":68493,"RR":"<b>Kumagai, K.; Barinova, A.A.; Nakajima, M.; Taniguchi, N.</b> (2004). Genetic diversity between Japanese and Chinese threeline grunt (<i>Parapristipoma trilineatum</i> examined by microsatellite DNA markers. <i>Mar. 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Biotechnol. 7(1)</i>: 1-10. <a href=\"https://dx.doi.org/10.1007/s10126-004-3046-9\" target=\"_blank\">https://dx.doi.org/10.1007/s10126-004-3046-9</a>","StandardTitle":"Genetic structure of Japanese scallop population in Hokkaido, analyzed by mitochondrial haplotype distribution","AuthorsString":"Nagashima, K. <i>et al.</i>","BibLvlCode":"AS"},{"BRefID":74833,"RR":"<b>del Gaudio, D.; Fortunato, G.; Borriello, M.; Gili, J.M.; Buono, P.; Calcagno, G.; Salvatore, F.; Sacchetti, L.</b> (2004). Genetic typing of <i>Corallium rubrum</i>. <i>Mar. Biotechnol. 6(6)</i>: 511-515. <a href=\"https://dx.doi.org/10.1007/s10126-004-3001-9\" target=\"_blank\">https://dx.doi.org/10.1007/s10126-004-3001-9</a>","StandardTitle":"Genetic typing of <i>Corallium rubrum</i>","AuthorsString":"del Gaudio, D. <i>et al.</i>","BibLvlCode":"AS"},{"BRefID":69262,"RR":"<b>Cruz, P.; Ibarra, A.M.; Mejia-Ruiz, H.; Gaffney, P.M.; Pérez-Enríquez, R.</b> (2004). 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Integrated method for single-cell DNA extraction, PCR amplification, and sequencing of ribosomal DNA from harmful dinoflagellates <i>Cochlodinium polykrikoides</i> and <i>Alexandrium catenella</i>. <i>Mar. Biotechnol. 6(6)</i>: 587-593. <a href=\"https://dx.doi.org/10.1007/s10126-004-1700-x\" target=\"_blank\">https://dx.doi.org/10.1007/s10126-004-1700-x</a>","StandardTitle":"Integrated method for single-cell DNA extraction, PCR amplification, and sequencing of ribosomal DNA from harmful dinoflagellates <i>Cochlodinium polykrikoides</i> and <i>Alexandrium catenella</i>","AuthorsString":"Ki, J.-S.; Jang, G.Y.; Han, M.-S.","BibLvlCode":"AS"},{"BRefID":102240,"RR":"<b>Wu, Y.; Zhang, G.; Xiong, Q.; Luo, F.; Cui, C.; Hu, W.; Yu, Y.; Su, J.; Xu, A.-L.; Zhu, Z.</b> (2006). Integration of double-fluorescence expression vectors into zebrafish genome for the selection of site-directed knockout/knockin. <i>Mar. 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Biotechnol. 8(4)</i>: 351-356","StandardTitle":"Introduction of translation stop codons into the viral glycoprotein gene in a fish DNA vaccine eliminates induction of protective immunity","AuthorsString":"Garver, K.A.; Conway, C.M.; Kurath, G.","BibLvlCode":"AS"},{"BRefID":71317,"RR":"<b>Sakai, T.; Kawai, T.; Kato, I.</b> (2004). Isolation and characterization of a fucoidan-degrading marine bacterial strain and its fucoidanase. <i>Mar. Biotechnol. 6(4)</i>: 335-346. <a href=\"http://dx.doi.org/10.1007/s10126-003-0033-5\" target=\"_blank\">http://dx.doi.org/10.1007/s10126-003-0033-5</a>","StandardTitle":"Isolation and characterization of a fucoidan-degrading marine bacterial strain and its fucoidanase","AuthorsString":"Sakai, T. <i>et al.</i>","BibLvlCode":"AS"},{"BRefID":102231,"RR":"<b>Lee, M.-Y.; Min, B.-S.; Chang, C.-S.; Jin, E.</b> (2006). Isolation and characterization of a xanthophyll aberrant mutant of the green alga <i>Nannochloropsis oculata</i>. <i>Mar. 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Isolation and identification of 3-methylcrotonyl coenzyme a carboxylase cDNAs and pyruvate carboxylase, and their expression in red seabream (<i>Pagrus major</i>) organs. <i>Mar. Biotechnol. 6(6)</i>: 527-540. <a href=\"https://dx.doi.org/10.1007/s10126-004-4203-x\" target=\"_blank\">https://dx.doi.org/10.1007/s10126-004-4203-x</a>","StandardTitle":"Isolation and identification of 3-methylcrotonyl coenzyme a carboxylase cDNAs and pyruvate carboxylase, and their expression in red seabream (<i>Pagrus major</i>) organs","AuthorsString":"Abe, S. <i>et al.</i>","BibLvlCode":"AS"},{"BRefID":107482,"RR":"<b>Alcivar-Warren, A.; Meehan-Meola, D.; Wang, Y.; Guo, X.; Zhou, L.; Xiang, J.; Moss, S.; Arce, S.; Warren, W.; Xu, Z.; Bell, K.</b> (2006). Isolation and mapping of telomeric pentanucleotide (TAACC)<sub>n</sub> repeats of the Pacific whiteleg shrimp, <i>Penaeus vannamei</i>, using fluorescence in situ hybridization. <i>Mar. 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Isolation of new <i>Symbiodinium</i> strains from tridacnid giant clam (<i>Tridacna crocea</i>) and sea slug (<i>Pteraeolidia ianthina</i>) using culture medium containing giant clam tissue homogenate. <i>Mar. Biotechnol. 6(4)</i>: 378-385. <a href=\"https://dx.doi.org/10.1007/s10126-004-1800-7\" target=\"_blank\">https://dx.doi.org/10.1007/s10126-004-1800-7</a>","StandardTitle":"Isolation of new <i>Symbiodinium</i> strains from tridacnid giant clam (<i>Tridacna crocea</i>) and sea slug (<i>Pteraeolidia ianthina</i>) using culture medium containing giant clam tissue homogenate","AuthorsString":"Ishikura, M. <i>et al.</i>","BibLvlCode":"AS"},{"BRefID":101881,"RR":"<b>Bryant, M.J.; Flint, H.J.; Sin, F.Y.T.</b> (2006). Isolation, characterization, and expression analysis of three actin genes in the New Zealand black-footed abalone, <i>Haliotis iris</i>. <i>Mar. 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Major histocompatibility complex class IIB allele polymorphism and its association with resistance/susceptibility to <i>Vibrio anguillarum</i> in Japanese flounder (<i>Paralichthys olivaceus</i>). <i>Mar. Biotechnol. 8(6)</i>: 600-610. <a href=\"https://dx.doi.org/10.1007/s10126-005-6185-8\" target=\"_blank\">https://dx.doi.org/10.1007/s10126-005-6185-8</a>","StandardTitle":"Major histocompatibility complex class IIB allele polymorphism and its association with resistance/susceptibility to <i>Vibrio anguillarum</i> in Japanese flounder (<i>Paralichthys olivaceus</i>)","AuthorsString":"Zhang, Y.X. <i>et al.</i>","BibLvlCode":"AS"},{"BRefID":117295,"RR":"<b>Qian, P.-Y.; Lau, S.C.K.; Dahms, H.-U.; Dobretsov, S.; Harder, T.C.</b> (2007). Marine biofilms as mediators of colonization by marine macroorganisms: implications for antifouling and aquaculture. <i>Mar. 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Molecular biomarkers and adaptation to environmental stress in moon jelly (<i>Aurelia</i> spp.). <i>Mar. Biotechnol. 7(5)</i>: 449-461. <a href=\"https://dx.doi.org/10.1007/s10126-004-4095-9\" target=\"_blank\">https://dx.doi.org/10.1007/s10126-004-4095-9</a>","StandardTitle":"Molecular biomarkers and adaptation to environmental stress in moon jelly (<i>Aurelia</i> spp.)","AuthorsString":"Schroth, W.; Ender, A.; Schierwater, B.","BibLvlCode":"AS"},{"BRefID":107492,"RR":"<b>Elsaied, H.E.; Kaneko, R.; Naganuma, T.</b> (2006). Molecular characterization of a deep-sea methanotrophic mussel symbiont that carries a RuBisCO gene. <i>Mar. Biotechnol. 8(5)</i>: 511-520","StandardTitle":"Molecular characterization of a deep-sea methanotrophic mussel symbiont that carries a RuBisCO gene","AuthorsString":"Elsaied, H.E.; Kaneko, R.; Naganuma, T.","BibLvlCode":"AS"},{"BRefID":75085,"RR":"<b>Chiou, T.; Wu, J.-L.; Chen, T.T.; Lu, J.-K.</b> (2005). Molecular cloning and characterization of cDNA of penaeidin-like antimicrobial peptide from tiger shrimp (<i>Penaeus monodon</i>). <i>Mar. Biotechnol. 7(2)</i>: 119-127. <a href=\"https://dx.doi.org/10.1007/s10126-004-3164-4\" target=\"_blank\">https://dx.doi.org/10.1007/s10126-004-3164-4</a>","StandardTitle":"Molecular cloning and characterization of cDNA of penaeidin-like antimicrobial peptide from tiger shrimp (<i>Penaeus monodon</i>)","AuthorsString":"Chiou, T. <i>et al.</i>","BibLvlCode":"AS"},{"BRefID":112886,"RR":"<b>Ye, H.-Q.; Chen, S.-L.; Sha, Z.-X.; Liu, Y.</b> (2007). Molecular cloning and expression analysis of the myostatin gene in sea perch (<i>Lateolabrax japonicus</i>). <i>Mar. 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Biotechnol. 6(5)</i>: 463-474","StandardTitle":"Molecular cloning and functional characterization of fatty acyl desaturase and elongase cDNAs involved in the production of eicosapentaenoic and docosahexaenoic acids from α-linolenic acid in Atlantic salmon (<i>Salmo salar</i>)","AuthorsString":"Hastings, N. <i>et al.</i>","BibLvlCode":"AS"},{"BRefID":69594,"RR":"<b>Chen, J.-Y.; Chen, J.-C.; Huang, W.-T.; Liu, C.-W.; Hui, C.-F.; Chen, T.T.; Wu, J.-L.</b> (2004). Molecular cloning and tissue-specific, developmental-stage-specific, and hormonal regulation of IGFBP3 gene in zebrafish. <i>Mar. Biotechnol. 6(1)</i>: 1-7","StandardTitle":"Molecular cloning and tissue-specific, developmental-stage-specific, and hormonal regulation of IGFBP3 gene in zebrafish","AuthorsString":"Chen, J.-Y. <i>et al.</i>","BibLvlCode":"AS"},{"BRefID":112271,"RR":"<b>Ko, C.-F.; Chiou, T.-T.; Chen, T.T.; Wu, J.-L.; Chen, J.-C.; Lu, J.-K.</b> (2007). Molecular cloning of myostatin gene and characterization of tissue-specific and developmental stage-specific expression of the gene in orange spotted grouper, <i>Epinephelus coioides</i>. <i>Mar. Biotechnol. 9(1)</i>: 20-32. <a href=\"http://dx.doi.org/10.1007/s10126-006-6059-8\" target=\"_blank\">http://dx.doi.org/10.1007/s10126-006-6059-8</a>","StandardTitle":"Molecular cloning of myostatin gene and characterization of tissue-specific and developmental stage-specific expression of the gene in orange spotted grouper, <i>Epinephelus coioides</i>","AuthorsString":"Ko, C.-F. <i>et al.</i>","BibLvlCode":"AS"},{"BRefID":74850,"RR":"<b>Pozzolini, M.; Sturla, L.; Cerrano, C.; Bavestrello, G.; Camardella, L.; Parodi, A.M.; Raheli, F.; Benatti, U.; Müller, W.E.G.; Giovine, M.</b> (2004). Molecular cloning of silicatein gene from marine sponge <i>Petrosia ficiformis</i> (Porifera, Demospongiae) and development of primmorphs as a model for biosilicification studies. <i>Mar. 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