PUBLICATIONS

Adil MT, Henry JJ. (2021) Understanding cornea epithelial stem cells and stem cell deficiency: Lessons learned using vertebrate model systems. Genesis Special Issue: Aquatic Model of Developmental Disorders. [Accepted]

Lyons DC*, Perry KJ*, Batzel G, Henry JQ. (2020) BMP signaling plays a role in anterior neural/head development, but not organizer function, in the gastropod Crepidula fornicata. Dev. Biol. 463(2)135-157. [Citation] *Co-first authors

Henry JQ, Lesoway ML, Perry KJ. (2020) An automated aquatic rack system for rearing marine invertebrates. BMC Biol. 18,46. https://doi.org/10.1186/s12915-020-00772-w [Citation]

Adil MT, Simons CM, Sonam S, Henry JJ. (2019) Understanding cornea homeostasis and wound healing using a novel model of corneal epithelial stem cell deficiency in Xenopus. Exp Eye Res. 187:107767. [PubMed]

Thomas AG, Adil MT, Henry JJ. (2019) Understanding the basis of CYP26 mediated regulation of lens regeneration using ex vivo eye cultures and 4-oxo-RA. bioRxiv 631994; doi.org/10.1101/631994 [Citation]

Moczek AP, Henry JJ, Byrne M. (2019) Rudolph Raff (Obituary). Evolution & Development. 21(3):113-114. [Citation]

Lesoway MP, Henry JJ. (2019) Sex determination and sex change in slipper snails and other molluscs. In: Evo-Devo: Non-Model Species in Cell and Developmental Biology. Eds: W Tworzydlo and S Bilinski. Results and Problems in Cell Differentiation, vol. 86:155-182, Springer Nature, Switzerland. [Citation]

Perry KJ, Hamilton PH, Sonam S, Singh R, Henry JJ. (2019) The role of sensory innervation in cornea-lens regeneration. Dev Dyn. 248:532-544. [PubMed] (Research image also on cover p. 530-544 )

Sonam S, Srnak JA, Perry KJ, Henry JJ. (2019) Molecular markers for cornea epithelial cells in larval vs. adult Xenopus frogs. Exp Eye Res. 184:107-125. [PubMed]

Lesoway ML, Henry JQ. (2019) Twisted shells, spiral cells and asymmetries: Evo-Devo lessons learned from gastropods. In: "Evolutionary Developmental Biology" (Nuño de la Rosa L, Muller G, eds). Springer, Cham, Switzerland. pp. 1-18. [Citation] 

Moore L, Perry KJ, Sun C, Henry JJ. (2018) FGF1 Promotes Xenopus laevis Lens Regeneration. bioRxiv 411991; doi.org/10.1101/411991 [Citation]

Osborne* CC, Perry* KJ, Shankland M, Henry JJ. (2018) Ectomesoderm and EMT-related Genes in Spiralian Development. Dev. Dyn. 247(10):1097-1120 [PubMed] *Co-first authors (Research image also on cover p. 1093-1096)

Lorente-Sorolla J, Truchado-Garcia M, Perry KJ, Henry JQ, Grande C. (2018) Molecular, phylogenetic and developmental analyses of Sall proteins in bilaterians. EvoDevo. 9:9. [Citation]

Henry JJ and Hamilton PW. (2018) Diverse Evolutionary Origins and Mechanisms of Lens Regeneration. Molecular Biology and Evolution. [Citation]

Henry JJ, Perry KJ, Hamilton PW. (2018) Methods for Examining Lens Regeneration in Xenopus, In "Early Development of Xenopus laevis. In: A Laboratory Manual" (Hazel L. Sive, Robert M. Grainger, Richard M. Harland, eds.) Cold Spring Harb Protoc doi:10.1101/prot101527. [PubMed]

Henry JJ, Perry KJ, Hamilton PW. (2018) Ex vivo eye tissue culture methods in Xenopus, In "Early Development of Xenopus laevis. In: A Laboratory Manual" (Hazel L. Sive, Robert M. Grainger, Richard M. Harland, eds.) Cold Spring Harb Protoc doi:10.1101/prot101535. [PubMed]

Skariah* G, Perry* KJ, Drnevich J, Henry JJ, Ceman S. (2018) RNA helicase Mov10 is essential for gastrulation and CNS development. Dev. Dyn. 247(4):660-671. [PubMed] *Co-first authors (Research photo also on cover of Volume 247, Issue 4, April 2018)

Davidson PL, Koch BJ, Schnitzler CE, Henry JQ, Martindale MQ, Baxevanis AD, Browne WE. (2017) The maternal-zygotic transition and zygotic activation of the Mnemiopsis leidyi genome occurs within the first three cleavage divisions. Mol. Reprod. Dev. 84(11):1218-1229. [PubMed]

Henry JQ, Lyons DC, Perry KJ, Osborne CC. (2017) Establishment and Activity of the D Quadrant Organizer in the Marine Gastropod Crepidula fornicata. Dev. Biol. 431(2):282-296. [PubMed]

Lyons DC, Perry KJ, Henry JQ. (2017) Morphogenesis along the animal-vegetal axis: fates of primary quartet micromere daughters in the gastropod Crepidula fornicata. BMC Evol. Biol. 17(1):217. [PubMed]

Henry JQ, Lesoway MP, Perry KJ, Osborne CC, Shankland M, Lyons DC. (2017) Beyond the sea: Crepidula atrasolea as a Spiralian Model System. Int. J. Dev. Biol. 61(8-9):479-493. [PubMed] (Research photo also on cover of Volume 61, Nos. 8/9)

Perry KJ and Henry JJ. (2016) G-protein coupled receptor 84, GPR84. In: Choi S. Encyclopedia of Signaling Molecules, 2nd edition. New York, Springer [Citation]

Hamilton PW and Henry JJ. (2016) The lens regenerative competency of limbal vs. central regions of the mature Xenopus cornea epithelium. Exp. Eye Res. 152:94-99. [PubMed]

Henry JJ and Lyons DC. (2016) Molluscan Models: Crepidula fornicata. In "Developmental Mechanisms, Patterning and Evolution," (D. Arendt, Ed.), Curr. Opin. Genet. Dev. 39:138-148. [Citation]

Hamilton PW, Sun Y, Henry JJ. (2016) Lens regeneration from the cornea requires suppression of Wnt/Beta-catenin signaling. Exp Eye Res. 145:206-215. [PubMed]

Martindale MQ and Henry JQ. (2015) Ctenophora. Chapter 8. In "Evolutionary Developmental Biology of Invertebrates 1: Introduction, Non-Bilateria, Acoelomorpha, Xenoturbellida, Chaetognatha," (A. Wanninger, Ed.), Springer-Verlag, Wien, Germany, pp 179-201. [Citation]

Perry* KJ, Lyons* DC, Truchado-Garcia M, Fischer AHL, Helfrich LW, Johansson KB, Diamond JC, Grande C, Henry JQ. (2015) Deployment of regulatory genes during gastrulation and germ layer specification in a model spiralian mollusc Crepidula. Dev. Dyn. 244(10): 1215-1248. [PubMed] *Co-first authors (Research photo also on cover of Issue #9)

Lyons DC, Perry KJ, Henry JQ. (2015) Spiralian Gastrulation: germ layer formation, morphogenesis, and fate of the blastopore in the slipper snail Crepidula fornicata. EvoDevo. 6:24. [PubMed]

Perry KJ and Henry JQ. (2015) CRISPR/Cas9 mediated genome modification in the mollusc, Crepidula fornicata, Genesis doi: 10.1002/dvg.22843 [PubMed]

Lyons DC, Henry JQ. (2014) The ins and outs of spiralian gastrulation. Int. J. Dev. Biol. 58:413-428. [PubMed]

Henry JQ. (2014) Spiralian model systems. Int. J. Dev. Biol. 58:389-401. [PubMed]

Henry JQ. (2014) Contemporary Spiralian Developmental Biology. Preface to the Special Issue on Spiralian model Systems. (J. Q. Henry, ed.) Int. J. Dev. Biol. 58:385-387. [PubMed]

Hamilton PW and Henry JJ. (2014) Prolonged in vivo imaging of Xenopus laevis. Dev. Dyn. 243 (8): 1011-9. [PubMed]

Thomas AG and Henry JJ. (2014) Retinoic acid regulation by Cyp26 in vertebrate lens regeneration. Dev. Biol. 386(2):291-301. [PubMed]

Fischer AHL, Pang K, Henry JQ, Martindale MQ. (2014) A cleavage clock regulates features of lineage-specific differentiation in the development in a basal branching metazoan, the ctenophore Mnemiopsis leidyi. EvoDevo. 5(1):4. [PubMed]

Amiel A, Henry JQ, Seaver EC. (2013) An organizing activity is required for head patterning and cell fate specification in the polychaete annelid Capitella teleta: New insights into cell signaling in Lophotrochozoa. Dev. Biol. 379(1):107-122. [PubMed]

Perry KJ, Thomas AG, Henry JJ. (2013) Expression of pluripotency factors in larval epithelium of the frog Xenopus: Evidence for the presence of cornea epithelial stem cells. Dev. Biol. 374(2):281-94. [PubMed] [Figure 7 Corrigendum] **Please note that due to a production error, the Figure 7 image and legend presented in the published version are incorrect. Please refer to the above link for the Figure 7 corrigendum.

Henry JJ, Thomas AG, Hamilton PW, Moore L, Perry KJ. (2013) Cell Signaling Pathways in Vertebrate Lens Regeneration. In: "New Perspectives in Regeneration," (E. Heber-Katz and D. L. Stocum, eds.), Current Topics in Microbiology and Immunology. Springer-Verlag, Germany. [PubMed]

Perry KJ and Henry JJ. (2013) G-protein coupled receptor 84, GPR84. In: Choi S. Encyclopedia of Signaling Molecules. New York, Springer, p. 806-810. [Citation]

Lyons DC, Perry KJ, Lesoway MP, Henry JQ. (2012) Cleavage pattern and fate map of the mesentoblast, 4d, in the gastropod Crepidula: A hallmark of spiralian development. EvoDevo. 3(1):21. [PubMed]

Barnett C, Yazgan O, Kuo HC, Malakar S, Thomas T, Fitzgerald A, Harbour B, Henry JJ, Krebs JE. (2012) Williams Syndrome Transcription Factor is critical for neural crest cell function in Xenopus laevis. Mech. Dev. 129(9-12):324-38. [PubMed]

Fukui, L. and Henry, J. J. (2011) FGF Signaling is Required for Lens Regeneration in Xenopus laevis. Biol. Bull. 221(1). [PubMed]

Perry KJ, Johnson VR, Malloch EL, Fukui L, Wever J, Thomas AG, Hamilton PW, Henry JJ. (2010) The G-protein-coupled receptor, GPR84, is important for eye development in Xenopus laevis. Dev. Dyn. 239: 3024-3037. [PubMed]

Henry JJ and Tsonis PA. (2010) Molecular and Cellular Aspects of Amphibian Lens Regeneration. Progress in Retinal and Eye Research. 29(6):543-555. [PubMed]

Henry JJ, Perry KJ, Fukui L, Alvi N. (2010) Differential Localization of mRNAs During Early Development in the Mollusc, Crepidula fornicata. Integrat. Compar. Biology. 50(5):720-733. [PubMed]

Alliegro MA, Henry JJ, Alliegro MC. (2010) Rediscovery of the Nucleolinus. Proc. Nat. Acad. Sci. 107(31):13718-23. [Citation]

Henry JQ, Perry KJ, Martindale MQ. (2010) Beta-catenin and early development in the gastropod, Crepidula fornicata. Integrat. Compar. Biology. 50(5):707-719. [PubMed]

Henry JJ, Collin R, Perry KJ. (2010) The Slipper Snail, Crepidula, An Emerging Lophotrochozoan Model System. Biol. Bull. 218: 211-229. [PubMed] [Supplemental Methods to this Publication]

Malloch EL, Perry KJ, Fukui L, Johnson V, Wever J, Beck CW, King MW, Henry JJ. (2009) Gene Expression Profiles of Lens Regeneration and Development in Xenopus laevis. Developmental Dynamics 238: 2340-2356. [PubMed]

Henry JJ, Wever JA, Veragara MN and Fukui L. (2008) Ch. 6. Xenopus, An Ideal Vertebrate System for Studies of Eye Development and Regeneration. In: “Animal Models for Eye Research” (P.A. Tsonis, ed). Academic Press. [Citation]

Walter BE, Perry KJ, Fukui L, Wever J, Malloch EL, and Henry JJ. (2008) Psf2 plays important roles in normal eye development in Xenopus laevis. Molecular Vision 14: 906-921. [PubMed]

Henry JQ, Perry KJ, Seaver E, Wever J and Martindale MQ. (2008) Beta-catenin is required for the establishment of vegetal embryonic fates in the nemertean, Cerebratulus lacteus. Developmental Biology 317: 368-379. [PubMed]

Henry JJ and Perry KJ. (2008) MAPK activation and the specification of the D-quadrant in the gastropod mollusc, Crepidula fornicata. Developmental Biology. 313: 181-195. [PubMed]

Henry JQ, Hejnol A, Perry KJ and Martindale MQ. (2007) Homology of the ciliary bands of spiralian trochophores and other larvae. Integrat. Compar. Biology. 47: 865-871. [Citation]

Hejnol A, Martindale MQ and Henry JQ. (2007) High resolution fate map of the gastropod snail, Crepidula fornicata. Origins of ciliary bands, nervous and musculature elements. Developmental Biology 305: 63-76. [PubMed] (research photo also on cover of issue)

Henry JQ, Perry KJ and Martindale MQ. (2006) Cell specification and the role of the polar lobe in the gastropod mollusc, Crepidula fornicata. Developmental Biology. 297: 295-307. [PubMed]

Elkins MB and Henry JJ. (2006) Isolation and characterization of a novel gene, xMADML, in Xenopus laevis eye development. Dev. Dyn. 235: 1845-1857. [PubMed]

Wolfe AD and Henry JJ. (2006) Neuronal leucine-rich repeat 6 (XlNLRR-6) is required for late lens and retina development in Xenopus laevis. Dev. Dyn. 235:1027-1041. [PubMed]

Dirscherl, S. S., Henry, J. J. and Krebs, J. E. (2005) Neural and eye-specific defects associated with loss of the Imitation Switch (ISWI) chromatin remodeler in Xenopus laevis. MOD 122: 1157-1170. [PubMed]

Walter BE and Henry JJ. (2004) Embryonic expression of pre-initiation DNA replication factors in Xenopus laevis. MOD/GEP. 5: 81-89. [PubMed]

Sweet H and Amemiya S, with Ransick A, Minokawa T, McClay D, Wikramanayake A, Kuraishi R, Kiyomoto BM, Nishida H and Henry JJ (2004) Blastomere Isolation and Transplantation, In: “Experimental Analysis ofthe Development of Sea Urchins and Other Non-Vertebrate Deuterostomes”. Methods in Cell Biology. 74: 243-271. [PubMed]

Henry JQ, Martindale MQ, Okusu A. (2004) The cell lineage of the polyplacophoran, Chaetopleura apiculata: Variation in the spiralian program and implications for molluscan evolution. Dev. Biol. 272: 145-160. [PubMed]

Wolfe AD, Crimmins G, Cameron JA and Henry JJ. (2004) Early regeneration genes: Building a molecular profile for shared gene expression in cornea-lens transdifferentiation and hindlimb regeneration in Xenopus laevis. Dev. Dyn. 230: 615-629. [PubMed]

Walter BE, Tian Y, Garlisch AK, Carinato ME, Elkins MB, Wolfe AD, Schaefer JJ, Perry KJ, and Henry JJ. (2004) Molecular Profiling: Gene expression reveals discrete phases of lens induction and development in Xenopus laevis. Molecular Vision. 10: 186-198. [PubMed]

Henry JQ and Martindale MQ. (2004) Inductive interactions and embryonic equivalence groups in a basal metazoan, the ctenophore Mnemiopsis leidyi. Evolution & Development. 6: 17-24. [PubMed]

Henry JJ. (2003) The cellular and molecular biology of vertebrate lens regeneration. International Review of Cytology: A Survey of Cell Biology. 228: 195-264. [PubMed] (review article photo also on cover of issue)

Henry JJ. (2002) Conserved mechanisms of dorsoventral axis determination in equal-cleaving spiralians. Dev. Biol. 248: 343-355. [PubMed]

Martindale MQ, Finnerty JR and Henry JQ. (2002) Radiata: Evolutionary origins of the bilaterian body plan. Molecular Phylogeny & Evolution. 24: 358365. [PubMed]

Henry JJ, Carinato ME, Schaefer JJ, Wolfe AD, Walter BE, Perry KJ, and Elbl TN. (2002) Characterizing gene expression during lens formation in Xenopus laevis: Evaluating the model for embryonic lens induction. Dev. Dyn. 224: 168-185. [PubMed]

Henry JQ, Tagawa K and Martindale MQ. (2001) Deuterostome evolution: Early development in the enteropneust hemichordate, Ptychodera flava. Evolution & Development. 3: 375-390. [PubMed] (research photo also on cover of issue)

Henry JQ and Martindale MQ. (2001) Multiple inductive signals are involved in the development of the ctenophore Mnemiopsis leidyi. Dev. Biol. 238: 40-46. [PubMed]

Henry JJ, and Elkins ME. (2001) Cornea-lens transdifferentiation in the anuran, Xenopus tropicalis. Development Genes & Evolution. 211: 377-387. [PubMed]

Henry JQ and Martindale MQ. (2000) Regulation and regeneration in the ctenophore, Mnemiopsis leidyi. Dev. Biol. 227: 720-733. [PubMed]

Henry JQ, Martindale MQ, and Boyer BC. (2000) The unique developmental program of the acoel flatworm, Neochildia fusca. Dev. Biol. 220: 285-295. [PubMed]

Carinato ME, Walter BE and Henry JJ. (2000) Xenopus laevis Gelatinase B (Xmmp-9): Development, regeneration and wound healing. Dev. Dyn. 217: 377-387. [PubMed]

Henry JJ. (1999) Book review of: “Egg & Ego: An Almost True Story of Life in the Biology Lab”. By Jonathan M. W. Slack, Springer-Verlag, Inc., New York, 195p. The Quarterly Review of Biology. 74: 458. [Citation]

Henry JJ and Martindale MQ. (1999a) Conservation and innovation in the spiralian developmental program. Hydrobiologia. 402: 255-265. [Citation]

Henry JJ and Martindale MQ. (1999b) Conservation and innovation in the spiralian developmental program. In: “Developments in Hydrobiology: Reproductive Strategies and Developmental Patterns in Annelids.” vol. 142, (A. W. C.Dorresteijn and W. Westheide, ed’s.), Kluwer Academic Publ. Dordrecht, Netherlands. pp. 255-265. [Citation]

Martindale MQ and Henry JJ. (1999) Intracellular fate mapping in a basal metazoan, the ctenophore Mnemiopsis leidyi, reveals the origins of mesoderm and the existence of indeterminate cell lineages. Dev. Biol. 214: 243-257. [PubMed]

Schaefer JJ, Oliver G and Henry JJ. (1999) Conservation of gene expression during embryonic lens formation and cornea-lens transdifferentiation in Xenopus laevis. Dev. Dyn. 215: 308-318. [PubMed]

Boyer BC, Henry JQ and Martindale MQ. (1998) The cell lineage of a polyclad turbellarian embryo reveals close similarity to coelomate spiralians. Dev. Biol. 204: 111-123. [PubMed]

Henry JJ and Martindale MQ. (1998a) Conservation of the spiralian developmental program: Cell lineage of the nemertean, Cerebratulus lacteus. Dev. Biol. 201: 253-269. [PubMed]

Henry JQ and Martindale MQ. (1998b) Evolution of cleavage programs in relationship to axial specification and body plan evolution. Biol. Bull. 195: 363-366. [Citation]

Boyer BC and Henry JQ. (1998) Evolutionary modifications of the spiralian developmental program. American Zoologist. 38: 621-633. [Citation]

Martindale MQ and Henry JQ. (1998) The development of radial and biradial symmetry: The evolution of bilaterality. American Zoologist. 38: 672-684. [Citation]

Henry JJ. (1998) The development of dorsoventral and bilateral axial properties in sea urchin embryos. Seminars in Cell & Developmental Biology. 9: 43-52. [PubMed] (review article figure also on cover of issue.)

Henry JQ and Martindale MQ. (1997a) Regulation and the modification of axial properties in partial embryos of the nemertean, Cerebratulus lacteus. Development Genes & Evolution. 207: 42-50. (See also Publisher's Erratum in Development Genes & Evolution. 207: 368-369). [Citation]

Henry JQ and Martindale MQ. (1997b) The Nemertea. Chapter 9, In: "Embryology, The Construction of Life." (S. Gilbert, and A. Raunio, ed’s.) Sinauer, MA, pp. 151-166.

Martindale MQ and Henry JQ. (1997a) Reassessing embryogenesis in the ctenophore: the inductive role of e1 micromeres in organizing ctene row formation in the "mosaic" embryo, Mnemiopsis leidyi. Development. 124: 1999-2006. [PubMed]

Martindale MQ and Henry JQ. (1997b) Experimental analysis of tentacle formation in the ctenophore Mnemiopsis leidyi. Biol. Bull. 193: 245-247. [Citation]

Martindale MQ and Henry J. (1997c) The Ctenophora. Chapter 6, In: "Embryology, The Construction of Life." (S. Gilbert, and A. Raunio, ed’s.) Sinauer, MA, pp. 87-111.

Martindale MQ and Henry JQ. (1996) Development and regeneration of comb plates in the ctenophore, Mnemiopsis leidyi. Biol. Bull. 191: 290-292. [Citation]

Henry JQ and Martindale MQ. (1996b) The establishment of embryonic axial properties in the nemertean, Cerebratulus lacteus. Dev. Biol. 180: 713-721. [PubMed]

Henry JQ and Martindale MQ. (1996a) The origins of mesoderm in the equal-cleaving nemertean worm, Cerebratulus lacteus. Biol. Bull. 191: 286-288. [Citation]

Boyer BC, Henry JQ and Martindale MQ. (1996b) Modified spiral cleavage: The duet cleavage pattern and early blastomere fates in the acoel turbellarian, Neochildia fusca. Biol. Bull. 191: 285-286. [Citation]

Boyer BC, Henry JQ and Martindale MQ. (1996a) Dual origins of mesoderm in a basal member of the spiralian clade: cell lineage analyses in the polyclad turbellarian, Hoploplana inquilina. Dev. Biol. 179: 329-338. [PubMed]

Gallagher BC, Henry JJ and Grainger RM. (1996) Inductive processes leading to inner ear formation during Xenopus development. Dev. Biol. 175: 95-107. [PubMed]

Henry JQ, Martindale MQ and Boyer BQ. (1995) Axial specification in a basal member of the spiralian clade: Lineage relationships of the first four cells to the larval body plan in the polyclad turbellarian, Hoploplana inquilina. Biol. Bull. 189: 194-195. [Citation]

Henry JQ and Martindale MQ. (1995) The experimental alteration of cell lineages in the nemertean, Cerebratulus lacteus: Implications for the precocious establishment of embryonic axial properties. Biol. Bull.189: 192-193. [Citation]

Martindale MQ and Henry JQ. (1995b) Diagonal Development: Establishment of the anal axis in the ctenophore, Mnemiopsis leidyi. Biol. Bull. 189: 190-192. [Citation]

Martindale MQ and Henry JQ. (1995a) Modifications of cell fate specification in equal-cleaving nemertean embryos: alternate patterns of spiralian development. Development. 121: 3175-3185. [PubMed]

Henry JJ and Mittleman J. (1995) The matured eye of Xenopus laevis tadpoles produces factors that elicit a lens-forming response in embryonic ectoderm. Dev. Biol. 171: 39-50. [PubMed]

Henry JJ and Raff RA (1994) Progressive determination of cell fate along the dorsoventral axis in the sea urchin Heliocidaris erythrogramma. Roux's Archives. Dev. Biol. 204: 62-69. [Citation]

Henry JQ and Martindale MQ. (1994b) Inhibitory cell-cell interactions control development in the embryos of Cerebratulus lacteus. Biol. Bull. 187: 238-239. [PubMed]

Henry JQ and Martindale MQ. (1994a) Establishment of the dorsoventral axis in nemertean embryos: Evolutionary considerations of spiralian development. Developmental Genetics 15: 64-78. [Citation]

Henry JJ, Charlebois TS and Grainger RM. (1993) Differential expression of type II cytokeratin mRNA defines early developmental boundaries within the ectoderm, mesoderm and endoderm during chick development. Roux's Archives. Dev. Biol. 202: 355-363. [Citation]

Henry JJ, Klueg KM and Raff RA. (1992) Evolutionary dissociation between cleavage, cell lineage and embryonic axes in sea urchin embryos. Development. 114: 931-938. [PubMed]

Henry JJ and Raff RA. (1992) Development and evolution of embryonic axial systems and cell determination in sea urchins. Seminars in Developmental Biology. 3: 35-42.

Grainger RM, Henry JJ, Saha M and Servetnick M. (1992) Recent progress on the mechanism of embryonic lens formation. Eye. 6: 117-122. [PubMed]

Raff RA, Wray GA and Henry JJ. (1991) Implications of radical evolutionary changes in early development for concepts of developmental constraint. In: “New Perspectives on Evolution.” The Wistar Symposium Series Vol. 4. (L. Warren and M. Meselson, ed’s.) Wiley-Liss, Inc., N.Y. pp. 189-207.

Raff RA, Henry JJ and Wray GA. (1991) Rapid evolution of early development: Reorganization of early morphogenetic processes in a direct-developing sea urchin. In: Gastrulation: Movements, Patterns and Molecules. (R. Keller, ed.). Plenum Publishing Corp., N.Y.

Henry JJ, Wray GA and Raff RA. (1991) Mechanism of an alternate type of blastula formation: The wrinkled blastula of the sea urchin, Heliocidaris erythrogramma. Development Growth and Differentiation. 33: 317-328. [Citation]

Grainger RM and Henry JJ. (1991) New perspectives on embryonic lens induction. Axolotl Newsletter. 20: 14-19.

Henry JJ, Wray GA and Raff RA. (1990) The dorsoventral axis is specified prior to first cleavage in the direct developing sea urchin, Heliocidaris erythrogramma. Development. 110: 875-884. [PubMed]

Charlebois TS, Henry JJ. and Grainger RM. (1990) Differential cytokeratin gene expression reveals early dorso-ventral regionalization in chick mesoderm. Development. 110: 417-425. [PubMed]

Henry JJ and Grainger RM. (1990) Early tissue interactions leading to embryonic lens formation in Xenopus laevis. Dev. Biol. 141: 149-163. [PubMed]

Henry JJ and Raff RA. (1990) Evolutionary change in the process of dorsoventral axis determination in the direct developing sea urchin, Heliocidaris erythrogramma. Dev. Biol. 141: 55-69. [PubMed]

Charlebois TS, Spencer DH, Tarkington SK, Henry JJ and Grainger RM. (1990) Isolation of a chick cytokeratin cDNA clone indicative of regional specialization in early embryonic ectoderm. Development. 108: 33-45. [PubMed]

Henry JJ, Amemiya S, Wray G and Raff RA. (1989) Early inductive interactions are involved in restricting cell fates of mesomeres in sea urchin embryos. Dev. Biol. 136: 140-153. [PubMed]

Henry JJ. (1989) Removal of the polar lobe leads to the formation of functionally deficient photocytes in the annelid, Chætopterus variopedatus. Roux's Archives. Dev. Biol. 198: 129-136. [Citation]

Grainger RM, Henry JJ and Henderson RA. (1988) Reinvestigation of the role of the optic vesicle in embryonic lens induction. Development. 102: 517-526. [PubMed]

Henry JJ and Grainger RM. (1987) Inductive interactions in the spatial and temporal restriction of lens-forming potential in embryonic ectoderm of Xenopus laevis. Dev. Biol. 124: 200-214. [PubMed]

Henry JJ and Martindale MQ. (1987) The organizing role of the D quadrant as revealed through the phenomenon of twinning in the polychaete, Chætopterus variopedatus. Roux's Archives. Dev. Biol. 196: 499-510. [Citation]

Henry JJ. (1986) The role of unequal cleavage and the polar lobe in the segregation of developmental potential during first cleavage in the embryo of Chætopterus variopedatus. Roux's Archives. Dev. Biol. 195: 103-116. [Citation]