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LINK TO PUBMED
ORIGINAL RESEARCH PUBLICATIONS IN PEER-REVIEWED
JOURNALS
1. J.J. Essner, J.D. Amack, M.K. Nyholm, E.B. Harris, and H.J. Yost (2005)
Kupffer's vesicle is a ciliated organ of asymmetry in the zebrafish embryo
that initiates left-right development of the brain, heart and gut. Development
132: 1247-60.
2. J.D. Amack and H.J. Yost (2004) The T box transcription
factor No Tail in ciliated cells controls zebrafish left-right asymmetry.
Current Biology 14, 685-90.
3. L.D. Nadauld, I.T. Sandoval, S. Chidester, H.J. Yost, and D.A. Jones
(2004) Adenomatous polyposis coli control of retinoic acid biosynthesis
is critical for zebrafish intestinal development and differentiation.
(2004) J Biol Chem 279, 51581-9.
4. W. Swiatek, I.C. Tsai, L. Klimowski, A. Pepler, J. Barnette, H.J. Yost,
and D.M. Virshup (2004). Regulation of casein kinase I epsilon activity
by Wnt signaling. J Biol Chem. 279, 13011-7.
5. Y. Chen, E. Mironova, L. Whitaker, L. Edwards, H.J. Yost, and A. Ramsdell
(2004). ALK4 functions as a receptor for multiple TGF?-related ligands
to regulate left-right axis determination and mesoderm induction in Xenopus.
Development Biology 268, 280-94.
6. Liang P, Jones CA, Bisgrove BW, Song L, Glenn ST, H.J. Yost, Gross
KW. (2004) Genomic Characterization and expression analysis of the first
nonmammalian rennin genes from zebrafish and pufferfish. Physiology Genomics
16, 314-22.
7. M. Yoshigi, E.B.Clark, H.J. Yost (2003). Quantification of stretch-induced
cytoskeletal remodeling in vascular endothelial cells by image processing.
Cytometry 55, 109-118.
8. M. Sato and H.J. Yost (2003). Cardiac neural crest contributes to cardiomyogenesis
in zebrafish. Developmental Biology 257, 127-139.
9. K.L. Kramer, J.E. Barnette, and H.J. Yost (2002) PKC? regulates syndecan-2
inside-out signaling during Xenopus left-right development. Cell 111,
981-990.
10. W.W. Branford and H.J. Yost (2002) Lefty dependent inhibition of Nodal
and Wnt signaling pathways is essential for normal gastrulation. Current
Biology 12, 2136-2141.
11. J.J. Essner, K.J. Vogan, M.K. Wagner, C.J. Tabin, H.J. Yost, M. Brueckner
(2002). Conserved function for embryonic nodal cilia. Nature 418, 37-8.
12. D. Morgan, J. Goodship, J.J. Essner, K.J. Vogan, L. Turnpenny, H.J. Yost,
C.J. Tabin, T. Strachan (2002). The left-right determinant inversin
has highly conserved ankyrin repeat and IQ domains and interacts with
calmodulin. Human Genetics 100(4): 377-84.
13. K.L. Kramer and H.J. Yost (2002) Ectodermal Syndecan-2 regulates left-right
axis formation in migrating mesoderm as a cell non-autonomous Vg1 co-receptor.
Developmental Cell 2, 115-124.
14. J. Liu, J. Stevens, C.A. Rote, H.J. Yost, Y. Hu, K.L. Neufeld, R.L.
White, N. Matsunami (2001) Siah-1 mediates a novel B-catenin degradation
pathway linking p53 to the Adenomatous Polyposis Coli protein. Molecular
Cell 7, 927-936.
15. N. Hu, E. B. Clark, H.J. Yost (2001) Cardiac morphology and blood
pressure in the adult zebrafish. Anatomical Record 264, 1-12.
16. X. Li, H.J. Yost, D.M. Virshup, J.M. Seeling (2001). Protein phosphatase
2A and its B65 regulatory subunit inhibit Wnt signaling in Xenopus. EMBO
J 20, 4122-31.
17. B.W. Bisgrove, J.J. Essner, H.J. Yost (2000). Multiple pathways in
the midline regulate concordant brain, heart and gut left-right asymmetry.
Development 127, 3567-3579.
18. N. Hu, D. Sedmera, H.J. Yost, and E.B. Clark (2000). Structure and
Function of the Developing Zebrafish Heart. Anatomical Record 260, 148-157.
19. W.W. Branford, J.J. Essner and H.J. Yost (2000). Regulation of gut
and heart leftright asymmetry by context dependent interactions between
Xenopus Lefty and BMP4 signaling. Developmental Biology 223, 291-306.
20. S. Angelo, J. Lohr, K.H. Lee, B. Ticho, R. Breitbart, H.J. Yost and
D. Srivastava (2000). Conservation of sequence and expression of Xenopus
and zebrafish dHAND during cardiac, branchial arch and lateral mesoderm
development. Mechanisms of Development 95, 231-237.
21. J.J. Essner, W.W. Branford, J. Zhang and H.J. Yost (2000). Mesendoderm
and left-right brain, heart and gut development are differentially regulated
by pitx2 isoforms. Development 127,1081-1093.
22. A.F. Ramsdell and H.J. Yost (1999). Cardiac looping and the vertebrate
left-right axis: antagonism of left-sided Vg1 by a right-sided ALK2-dependent
BMP pathway. Development 126, 5195-5205.
23. K.E. Schroeder, M.L. Condic, L.M. Eisenberg and H.J. Yost (1999).
Spatially regulated translation in embryos: Asymmetric expression of maternal
wnt-11 along the dorsal-ventral axis in Xenopus. Developmental Biology
214, 288-297.
24. B.W. Bisgrove, J.J. Essner, H.J. Yost (1999). Regulation of midline
development
by antagonism of lefty and nodal signaling. Development 126, 3253-3262.
25. J.L. Lohr, M.C. Danos, T.W. Groth and H.J. Yost (1998). Maintenance
of asymmetric nodal expression in Xenopus laevis. Developmental Genetics
23, 194-202.
26. B.A. Hyatt and H.J. Yost (1998). The Left-Right Coordinator: The role
of Vg1 in organizing left-right axis formation. Cell 93, 37-46.
27. J.L. Lohr, M.C. Danos, H.J. Yost (1997). Left-right asymmetry of a
nodal-related gene is regulated by dorsoanterior midline structures during
Xenopus development. Development 124, 1465-1472.
28. B.A. Hyatt, J.L. Lohr and H.J. Yost (1996). Initiation of vertebrate
left-right axis formation by maternal Vg1. Nature 384, 62-65.
29. M.C. Danos and H.J. Yost (1996). Role of notochord in specification
of cardiac left-right orientation in zebrafish and Xenopus. Developmental
Biology 177, 96-103.
30. K.E. Schroeder and H.J. Yost (1996). Xenopus Poly (A) Binding Protein
Maternal RNA is Localized during Oogenesis and Associated with Large Complexes
in Blastula. Developmental Genetics 19, 268-276.
31. A.L.. Teel and H.J. Yost (1996). Embryonic Expression Patterns of
Xenopus Syndecans. Mechanisms of Development 59, 115-127.
32. M.C. Danos and H.J. Yost (1995). Linkage of cardiac left-right asymmetry
and dorsal-anterior development in Xenopus. Development 121, 1467-1474.
33. H.J. Yost, C.R. Phillips, J.L. Boore, J. Bertman, B. Whalon, M.V.
Danilchik (1995). Relocation of mitochondria to the prospective dorsal
marginal zone during Xenopus embryogenesis. Developmental Biology 170,
83-90.
34. M.T. Galeazza, M.G. Garry, H.J. Yost, K.A. Strait, K.M. Hargreaves,
and V.S. Seybold (1995). Plasticity in the synthesis and storage of substance
P and calcitonin gene-related peptide in primary afferent neurons during
peripheral inflammation. Neuroscience 66, 443-458.
35. H.J. Yost (1992). Regulation of vertebrate left-right asymmetries
by extracellular matrix. Nature 357, 158-161.
36. H.J. Yost and S. Lindquist (1991). Heat shock proteins affect RNA
processing during the heat shock response of Saccharomyces cerevisiae.
Molecular and Cellular Biology 11, 1062-68.
37. H.J. Yost (1990). Inhibition of proteoglycan synthesis eliminates
left-right asymmetry in Xenopus laevis cardiac looping. Development 110,
865-874.
38. H.J. Yost and S. Lindquist (1988). Translation of unspliced transcripts
after heat shock. Science 242, 1544-1548.
39. H.J. Yost and S. Lindquist (1986). RNA splicing is interrupted by
heat shock and is rescued by heat shock protein synthesis. Cell 45, 185-193.
40. A. Martinez-Arias, H.J. Yost and M.J. Casadaban (1984). Role of an
upstream regulatory element in leucine repression of the Saccharomyces
cerevisiae leu2 gene. Nature 307, 740-742.
B. INVITED REVIEWS IN JOURNALS
41. W.W. Branford and H.J. Yost (2004) Nodal signaling: Cryptic
Lefty mechanism of antagonism decoded. Current Biology 14: 341-3.
42. H.J. Yost (2003) Left-right asymmetry: nodal cilia make and
catch a wave. Current Biology 13, 808-809
43. Kramer, K.L., and H.J. Yost (2003). Heparan sulfate core proteins
in cell-cell signaling. Annual Review of Genetics 37, 461-84.
44. K.L. Kramer and H.J. Yost (2003) Cardiac Left-Right Development:
Are the early steps conserved? Cold Spring Harbor Symposium on Quantitative
Biology 149, 37-43.
45. B.W. Bisgrove, S.H. Morelli, H.J. Yost (2003). Genetics of
Human Laterality disorders: Insights from vertebrate model systems. Annual
Review Genomics and Human Genetics. April 15, 1-32.
46. H.J. Yost (2003) Halpern Explores Asymmetry Using Zebrafish
as Model Organism. American Association of Anatomists 12 (2), 12-13.
47. S.M. Prescott, H.J. Yost (2002). The COXes of Danio: from mechanistic
model to experimental therapeutics. Proc. National Academy Science 99,
9084-6
48. B.W. Bisgrove and H.J. Yost (2001) Classification of left-right
patterning defects in zebrafish, mice and humans. American Journal of
Medical Genetics 101, 315-323.
49. H.J. Yost (2001). Establishment of left-right asymmetry. International
Review of Cytology 203, 357-381.
50. J.L. Lohr and H.J. Yost (2000). Vertebrate model systems in
the study of early heart development: Xenopus and zebrafish. American
Journal of Medical Genetics 97, 248-257.
51. M.K. Wagner and H.J. Yost (2000). Left-right development: the
roles of nodal cilia. Current Biology, 10:149-151.
52. H.J. Yost (1999). Diverse Initiation in a Conserved Left-Right
Pathway? Current Opinions in Genetics and Development 9, 422-426.
53. A.F. Ramsdell and H.J. Yost (1998). Molecular mechanisms of
vertebrate leftright development. Trends in Genetics 14, 459-465.
54. H.J. Yost (1998). The genetics of midline and cardiac laterality
defects. Current Opinions in Cardiology 13, 185-189.
55. H.J. Yost (1998). Left-right development: from embryos to brains.
Developmental Genetics 23, 159-163.
56. H.J. Yost (1998). Left-right development in Xenopus and zebrafish.
Seminars in Cell and Developmental Biology 9, 61-66.
57. P.N. Bowers, M. Brueckner and H.J. Yost (1996). The genetics
of left-right development and heterotaxia. Seminars in Perinatology 20,
577-588.
58. P.N. Bowers, M. Brueckner and H.J. Yost (1996). Laterality
Disturbances. in "The Genetics of Congenital Cardiovascular Disease"
(M. E. Pierpont and J. A. Towbin, Eds.) Progress in Pediatric Cardiology
6, 53-62.
59. H.J. Yost (1995). Vertebrate left-right development. Cell 82,
689-692.
60. H.J. Yost (1992). Xenopus: Getting Reorganized. (Review of
"The Early Development of Xenopus laevis: An Atlas of the Histology"
by P. Hausen and M. Riebessell) Trends in Genetics 8, 186.
61. H.J. Yost, R.B. Petersen and S. Lindquist (1990). RNA metabolism:
strategies for regulation in the heat shock response. Trends In Genetics
6, 223-227.
C. BOOKS AND BOOK CHAPTERS
62. A. Tran, M. Sato, H.J. Yost (2003) Morphological Analysis of
Cardiac Defects in Neural Crest Deficient Zebrafish Embryos. Proceedings
NCUR 2003. Univ. of North Carolina, Asheville, NC. Volume 3, 73.
63. A.F. Ramsdell and H.J. Yost (2001). Cardiac looping and the
left-right axis: integrating morphological, molecular and genetic analyses
of vertebrate left-right development. In Development of the Cardiovascular
System, Volume 1 (R. J. Tomanek and R. Runyon, eds.) JAI Press, Greenwich,
CT.
64. J.M. Opitz, H.J. Yost and E.B. Clark (2000). Syndromes, developmental
fields and human congenital cardiovascular malformations. In "Etiology
& Morphogenesis of Congenital Heart Disease: Twenty Years of Progress
in Genetics and Developmental Biology" (E.B. Clark, M. Nakazawa,
A. Takao, eds.) Futura, N.Y., p 311 - 320.
65. H.J. Yost (2000). Axes, situs and the vertebrate body plan.
In "Etiology & Morphogenesis of Congenital Heart Disease: Twenty
Years of Progress in Genetics and Developmental Biology" (E.B. Clark,
M. Nakazawa, A. Takao, eds.) Futura, N.Y., p 3 - 10.
66. H.J. Yost (2000). Specification of cardiac mesenchyme and heart
morphogenesis in vitro. Methods in Molecular Biology 136, 35-39.
67. H.J. Yost (1998). Establishing cardiac left-right asymmetry.
In "Heart Development" (R. P. Harvey and N. Rosenthal, eds).
Academic Press, San Diego. p 373-389.
68. H.J. Yost (1995). Breaking Symmetry: Left-Right Cardiac Development
in Xenopus laevis. in "Fourth International Symposium on Etiology
& Morphogenesis of Congenital Heart Disease - Developmental Mechanisms"
(M. M. Markwald, E. B. Clark, A. Takao, eds.) Futura, N.Y., p 505-511.
69. H.J. Yost (1991). Development of the left-right axis in amphibians.
In "Biological Asymmetries and Handedness" (eds. G. Bock &
J. Marsh). Ciba Foundation Symposium 162, p 165-181. J. Wiley, New York.
70. H.J. Yost, R.B. Petersen and S. Lindquist (1990). Posttranscriptional
regulation of heat shock protein synthesis in Drosophila. In "Stress
Proteins in Biology and Medicine" (R. I. Morimoto, A. Tissieres,
and C. Georgopoulos, Eds.). Cold Spring Laboratory Press, p. 379-409. |
