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1. Note to: Hox gene cluster of the ascidian, Halocynthia roretzi, reveals multiple ancient steps of cluster disintegration during ascidian evolution

2. Hox gene cluster of the ascidian, Halocynthia roretzi, reveals multiple ancient steps of cluster disintegration during ascidian evolution

3. Author Correction: Genomic insights of body plan transitions from bilateral to pentameral symmetry in Echinoderms

4. Genomic insights of body plan transitions from bilateral to pentameral symmetry in Echinoderms

5. Author Correction: Genomic insights of body plan transitions from bilateral to pentameral symmetry in Echinoderms

6. Hox10-regulated endodermal cell migration is essential for development of the ascidian intestine

7. Continuous expression ofOtxin the anterior neural lineage is supported by different transcriptional regulatory mechanisms during the development ofHalocynthia roretzi

8. Formation of the digestive tract inCiona intestinalisincludes two distinct morphogenic processes between its anterior and posterior parts

9. Repression of Rx gene on the left side of the sensory vesicle by Nodal signaling is crucial for right-sided formation of the ocellus photoreceptor in the development of Ciona intestinalis

10. Spatial and temporal expression of two transcriptional isoforms of Lhx3, a LIM class homeobox gene, during embryogenesis of two phylogenetically remote ascidians, Halocynthia roretzi and Ciona intestinalis

11. Left–right asymmetric expression of Pitx is regulated by the asymmetric Nodal signaling through an intronic enhancer in Ciona intestinalis

12. Dynamic change in the expression of developmental genes in the ascidian central nervous system: Revisit to the tripartite model and the origin of the midbrain–hindbrain boundary region

13. Polarization of PI3K Activity Initiated by Ooplasmic Segregation Guides Nuclear Migration in the Mesendoderm

14. Making very similar embryos with divergent genomes: conservation of regulatory mechanisms ofOtxbetween the ascidiansHalocynthia roretziandCiona intestinalis

15. A saturation screen for cis-acting regulatory DNA in the Hox genes of Ciona intestinalis

16. A genomewide survey of developmentally relevant genes in Ciona intestinalis II. Genes for homebox transcription factors

17. HrzicN, a newZicfamily gene of ascidians, plays essential roles in the neural tube and notochord development

18. Amphi-Eomes/Tbr1: an amphioxus cognate of vertebrateEomesodermin andT-Brain1 genes whose expression reveals evolutionarily distinct domain in amphioxus development

19. Analysis of the Transcription Regulatory Mechanism of Otx During the Development of the Sensory Vesicle in Ciona intestinalis

20. Early expressed genes showing a dichotomous developing pattern in the lancelet embryo

21. Vegetal cell fate specification and anterior neuroectoderm formation by Hroth, the ascidian homologue of orthodenticle/otx

22. Cloning and embryonic expression of Hrsna, a snail family gene of the ascidian Halocynthia roretzi: Implication in the origins of mechanisms for mesoderm specification and body axis formation in chordates

23. Analysis of Temporal Expression Pattern andcis-Regulatory Sequences of Chicken Pepsinogen A and C

24. Early specification of intestinal epithelium in the chicken embryo: A study on the localization and regulation of CdxA expression

25. Identification of an intact ParaHox cluster with temporal colinearity but altered spatial colinearity in the hemichordate Ptychodera flava

26. Formation of the digestive tract in Ciona intestinalis includes two distinct morphogenic processes between its anterior and posterior parts

27. Hroth, an orthodenticle-related homeobox gene of the ascidian, Halocynthia roretzi: its expression and putative roles in the axis formation during embryogenesis

28. The ascidian embryo: An experimental system for studying genetic circuitry for embryonic cell specification and morphogenesis

29. Homeobox Genes Exhibit Evolutionary Conserved Regionalization in the Central Nervous System of an Ascidian Larva

30. Transcriptional regulation of a horizontally transferred gene from bacterium to chordate

31. Expression of the labial group Hox gene HrHox-1 and its alteration induced by retinoic acid in development of the ascidian Halocynthia roretzi

32. Spatially and temporally regulated expression of the LIM class homeobox gene Hrlim suggests multiple distinct functions in development of the ascidian, Halocynthia roretzi

33. Transcription regulatory mechanism of Pitx in the papilla-forming region in the ascidian, Halocynthia roretzi, implies conserved involvement of Otx as the upstream gene in the adhesive organ development of chordates

34. Identical genomic organization of two hemichordate hox clusters

35. Developmental Changes of DNA Methylation Pattern of Embryonic Chick Pepsinogen Gene1

37. Segregation of germ layer fates by nuclear migration-dependent localization of Not mRNA

38. Limited functions of Hox genes in the larval development of the ascidian Ciona intestinalis

39. Regulation of Androgen Receptor by Androgen and Epidermal Growth Factor in a Human Prostatic Cancer Cell Line, LNCaP

40. Evolutionary origins of blastoporal expression and organizer activity of the vertebrate gastrula organizer gene lhx1 and its ancient metazoan paralog lhx3

41. Ambulacrarian prototypical Hox and ParaHox gene complements of the indirect-developing hemichordate Balanoglossus simodensis

42. Temporal and Spatial Expression of a Muscle Actin Gene during Embryogenesis of the Ascidian Halocynthia roretzi. (Specific gene expression/a muscle actin gene/muscle lineage cells/ascidian embryos)

43. Molecular cloning and expression of a novel homeobox gene AHox1 of the ascidian, Halocynthia roretzi

44. Comprehensive survey and classification of homeobox genes in the genome of amphioxus, Branchiostoma floridae

45. Evolution of CUT class homeobox genes: insights from the genome of the amphioxus, Branchiostoma floridae

46. The amphioxus genome illuminates vertebrate origins and cephalochordate biology

47. Specific expression of myosin heavy chain gene in muscle lineage cells of the ascidian embryo

48. Regionalization of the tail-tip epidermis requires inductive influence from vegetal cells and FGF signaling in the development of an ascidian, Halocynthia roretzi

49. Organization of Hox genes in ascidians: present, past, and future

50. Ciona intestinalis Hox gene cluster: Its dispersed structure and residual colinear expression in development

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