Диссертация (Ранние молекулярные и клеточные события формирования мезодермы у нереидных полихет), страница 39
Описание файла
Файл "Диссертация" внутри архива находится в папке "Ранние молекулярные и клеточные события формирования мезодермы у нереидных полихет". PDF-файл из архива "Ранние молекулярные и клеточные события формирования мезодермы у нереидных полихет", который расположен в категории "". Всё это находится в предмете "биология" из Аспирантура и докторантура, которые можно найти в файловом архиве СПбГУ. Не смотря на прямую связь этого архива с СПбГУ, его также можно найти и в других разделах. , а ещё этот архив представляет собой кандидатскую диссертацию, поэтому ещё представлен в разделе всех диссертаций на соискание учёной степени кандидата биологических наук.
Просмотр PDF-файла онлайн
Текст 39 страницы из PDF
№ 7. 709–715.308.Thisse B., Stoetzel C., Gorostiza-Thisse C., Perrin-Schmitt F. Sequence of thetwist gene and nuclear localization of its protein in endomesodermal cells of earlyDrosophila embryos // EMBO J. 1988. 7. № 7. 2175–2183.309.Thomson T., Lin H. The Biogenesis and Function of PIWI Proteins and piRNAs:Progress and Prospect // Annu. Rev. Cell Dev. Biol.
2009. 25. № 1. 355–376.310.Torrence S.A. Positional cues governing cell migration in leech neurogenesis //Development. 1991. 111. № 4. 993–1005.311.Tseng J.-C., Chen H.-F., Wu K.-J. A twist tale of cancer metastasis and tumorangiogenesis // Histol. Histopathol. 2015. 30. № 11. 1283–1294.312.van den Biggelaar J.A.M., Guerrier P. Dorsoventral polarity and mesentoblastdetermination as concomitant results of cellular interactions in the mollusk Patella vulgata //Dev.
Biol. 1979. 68. № 2. 462–471.313.Vargas-Vila M.A., Hannibal R.L., Parchem R.J., Liu P.Z., Patel N.H. A prominentrequirement for single-minded and the ventral midline in patterning the dorsoventral axis ofthe crustacean Parhyale hawaiensis // Development. 2010. 137. № 20. 3469–3476.314.Wang P., Zhao J., Corsi A.K. Identification of novel target genes of CeTwist andCeE/DA // Dev.
Biol. 2006. 293. № 2. 486–498.315.Wei Q., Rong Y., Paterson B.M. Stereotypic founder cell patterning andembryonic muscle formation in Drosophila require nautilus (MyoD) gene function // Proc.Natl. Acad. Sci. 2007. 104. № 13. 5461–5466.316.Weintraub H., Tapscott S.J., Davis R.L., Thayer M.J., Adam M.A., Lassar A.B.,Miller A.D. Activation of muscle-specific genes in pigment, nerve, fat, liver, and fibroblast celllines by forced expression of MyoD // Proc. Natl.
Acad. Sci. 1989. 86. № 14. 5434–5438.317.Weisblat D.A., Huang F.Z. An overview of glossiphoniid leech development //Can. J. Zool. 2001. 79. № 2. 218–232.318.Whitman M., Melton D.A. Involvement of p21ras in Xenopus mesoderminduction // Nature. 1992. 357. № 6375. 252–254.319.Williams E.A., Jékely G. Towards a systems-level understanding ofdevelopment in the marine annelid Platynereis dumerilii // Curr. Opin. Genet. Dev.
2016. 39.175–181.187320.Wilson E.B. The cell-lineage of Nereis. A contribution to the cytogeny of theannelid body // J. Morphol. 1892. 6. № 3. 361–480.321.Wilson E.B. Considerations on cell-lineage and ancestral reminiscence, basedon a re-examination of some points in the early development of annelids and polyclades //Ann. N. Y. Acad. Sci. 1898. 11.
№ 1. 1–27.322.Winchell C.J., Valencia J.E., Jacobs D.K. Expression of Distal-less, dachshund,and optomotor blind in Neanthes arenaceodentata (Annelida, Nereididae) does not supporthomology of appendage-forming mechanisms across the Bilateria // Dev. Genes Evol. 2010.220. № 9–10.
275–295.323.Wolf C., Thisse C., Stoetzel C., Thisse B., Gerlinger P., Perrin-Schmitt F. The M-twist gene of Mus is expressed in subsets of mesodermal cells and is closely related to theXenopus X-twi and the Drosophila twist genes // Dev. Biol. 1991. 143. № 2. 363–373.324.Wolpert L. Positional information and the spatial pattern of cellulardifferentiation // J.
Theor. Biol. 1969. 25. № 1. 1–47.325.Wong M.-C., Castanon I., Baylies M.K. Daughterless dictates Twist activity in acontext-dependent manner during somatic myogenesis // Dev. Biol. 2008. 317. № 2. 417–429.326.Wong M.-C., Dobi K.C., Baylies M.K. Discrete Levels of Twist Activity AreRequired to Direct Distinct Cell Functions during Gastrulation and Somatic Myogenesis //PLoS ONE. 2014. 9. № 6. e99553.327.Wu S.-Y., Ferkowicz M., McClay D.R. Ingression of primary mesenchyme cellsof the sea urchin embryo: A precisely timed epithelial mesenchymal transition // BirthDefects Res. Part C Embryo Today Rev. 2007. 81.
№ 4. 241–252.328.Wu S.-Y., Yang Y.-P., McClay D.R. Twist is an essential regulator of theskeletogenic gene regulatory network in the sea urchin embryo // Dev. Biol. 2008. 319. № 2.406–415.329.Wu H.-R., Chen Y.-T., Su Y.-H., Luo Y.-J., Holland L.Z., Yu J.-K. Asymmetriclocalization of germline markers Vasa and Nanos during early development in the amphioxusBranchiostoma floridae // Dev. Biol.
2011. 353. № 1. 147–159.330.Wyman C., Kanaar R. DNA Double-Strand Break Repair: All’s Well that EndsWell // Annu. Rev. Genet. 2006. 40. № 1. 363–383.331.Xia S., Tai X., Wang Y., An X., Qian G., Dong J., Wang X., Sha B., Wang D.,Murthi P., Kalionis B., Wang X., Bai C. Involvement of Gax Gene in Hypoxia-Induced188Pulmonary Hypertension, Proliferation, and Apoptosis of Arterial Smooth Muscle Cells // Am.J.
Respir. Cell Mol. Biol. 2011. 44. № 1. 66–73.332.Yamada A., Pang K., Martindale M.Q., Tochinai S. Surprisingly complex T-boxgene complement in diploblastic metazoans // Evol. Dev. 2007. 9. № 3. 220–230.333.Yamazaki K., Akiyama-Oda Y., Oda H. Expression patterns of a twist-relatedgene in embryos of the spider Achaearanea tepidariorum reveal divergent aspects ofmesoderm development in the fly and spider // Zoolog. Sci.
2005. 22. № 2. 177–185.334.Yang J., Mani S.A., Donaher J.L., Ramaswamy S., Itzykson R.A., Come C.,Savagner P., Gitelman I., Richardson A., Weinberg R.A. Twist, a master regulator ofmorphogenesis, plays an essential role in tumor metastasis // Cell. 2004. 117. № 7. 927–939.335.Yang J., Mani S.A., Weinberg R.A. Exploring a New Twist on Tumor Metastasis// Cancer Res. 2006. 66.
№ 9. 4549–4552.336.Yang S.-H., Sharrocks A.D., Whitmarsh A.J. MAP kinase signalling cascades andtranscriptional regulation // Gene. 2013. 513. № 1. 1–13.337.Yasui K., Zhang S., Uemura M., Aizawa S., Ueki T. Expression of a twist-RelatedGene, Bbtwist, during the Development of a Lancelet Species and Its Relation toCephalochordate Anterior Structures // Dev. Biol. 1998. 195. № 1.
49–59.338.Yin Z., Frasch M. Regulation and function of tinman during dorsal mesoderminduction and heart specification in Drosophila // Dev. Genet. 1998. 22. № 3. 187–200.339.Zantke J., Bannister S., Rajan V.B.V., Raible F., Tessmar-Raible K. Genetic andGenomic Tools for the Marine Annelid Platynereis dumerilii // Genetics. 2014. 197. № 1. 19–31.340.Zeitlinger J., Zinzen R.P., Stark A., Kellis M., Zhang H., Young R.A., Levine M.Whole-genome ChIP-chip analysis of Dorsal, Twist, and Snail suggests integration of diversepatterning processes in the Drosophila embryo // Genes Dev.
2007. 21. № 4. 385–390.341.Zhang C., Klymkowsky M.W. Unexpected functional redundancy betweenTwist and Slug (Snail2) and their feedback regulation of NF-κB via Nodal and Cerberus // Dev.Biol. 2009. 331. № 2. 340–349.189.