HR job title
- Professor
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- 1 979 845 6494
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Riley, Bruce Professor
Positions
- Professor, Biology, College of Arts and Sciences
My lab studies inner ear development in zebrafish. A prominent feature of our research is to investigate how cell-cell signaling and downstream gene-interactions control development. One project in the lab focuses on how cell signaling regulates ectodermal patterning during gastrulation to establish the otic placode, the precursor of the inner ear. Our recent work shows that localized Fgf signaling is especially critical for inducing formation of the otic placode, and members of the Pax2/5/8 family of transcription factors are important mediators of Fgf signaling. During later stages of inner ear development, we are exploring how sensory hair cells and neurons are regulated. Our studies address how these cells initially form, how they are genetically maintained, and how they become specialized for hearing vs. balance. We are also investigating how zebrafish can replace dead and damaged hair cells, an ability that mammals have lost. The inability to regenerate hair cells explains why humans show progressive irreversible hearing loss as we age. It is hoped that activating or augmenting human homologs of genes shown to operate in zebrafish might help restore hearing and balance in humans.
- Overview
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- Works By Students
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Overview
Publications
selected publications
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academic article
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Riley, B. B.
(2021).
Comparative assessment of Fgf's diverse roles in inner ear development: A zebrafish perspective. Developmental Dynamics.
250(11), 1524-1551.
-
Kantarci, H., Gou, Y., & Riley, B. B.
(2020).
The Warburg Effect and lactate signaling augment Fgf-MAPK to promote sensory-neural development in the otic vesicle. 9, e56301.
-
Gou, Y., Vemaraju, S., Sweet, E. M., Kwon, H., & Riley, B. B.
(2018).
sox2 and sox3 Play unique roles in development of hair cells and neurons in the zebrafish inner ear. Developmental Biology.
435(1), 73-83.
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Gou, Y., Guo, J., Maulding, K., & Riley, B. B.
(2018).
sox2 and sox3 cooperate to regulate otic/epibranchial placode induction in zebrafish. Developmental Biology.
435(1), 84-95.
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Kantarci, H., Gerberding, A., & Riley, B. B.
(2016).
Spemann organizer gene Goosecoid promotes delamination of neuroblasts from the otic vesicle. Proceedings of the National Academy of Sciences of the United States of America.
113(44), e6840-e6848.
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Kantarci, H., Edlund, R. K., Groves, A. K., & Riley, B. B.
(2015).
Tfap2a promotes specification and maturation of neurons in the inner ear through modulation of Bmp, Fgf and notch signaling. PLOS Genetics.
11(3), e1005037-e1005037.
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Maulding, K., Padanad, M. S., Dong, J., & Riley, B. B.
(2014).
Mesodermal Fgf10b cooperates with other fibroblast growth factors during induction of otic and epibranchial placodes in zebrafish. Developmental Dynamics.
243(10), 1275-1285.
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Edlund, R. K., Ohyama, T., Kantarci, H., Riley, B. B., & Groves, A. K.
(2014).
Foxi transcription factors promote pharyngeal arch development by regulating formation of FGF signaling centers. Developmental Biology.
390(1), 1-13.
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Bhat, N., Kwon, H., & Riley, B. B.
(2013).
A gene network that coordinates preplacodal competence and neural crest specification in zebrafish. Developmental Biology.
373(1), 107-117.
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Vemaraju, S., Kantarci, H., Padanad, M. S., & Riley, B. B.
(2012).
A spatial and temporal gradient of Fgf differentially regulates distinct stages of neural development in the zebrafish inner ear. PLOS Genetics.
8(11), e1003068-e1003068.
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Padanad, M. S., Bhat, N., Guo, B., & Riley, B. B.
(2012).
Conditions that influence the response to Fgf during otic placode induction. Developmental Biology.
364(1), 1-10.
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Padanad, M. S., & Riley, B. B.
(2012).
Pax2/8 proteins coordinate sequential induction of otic and epibranchial placodes through differential regulation of foxil, sox3 and fgf24 (vol 251, pg 90, 2011). Developmental Biology.
363(1), 331-331.
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Bhat, N., & Riley, B. B.
(2011).
Integrin-5 coordinates assembly of posterior cranial placodes in zebrafish and enhances Fgf-dependent regulation of otic/epibranchial cells. PLoS ONE.
6(12), e27778-e27778.
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Padanad, M. S., & Riley, B. B.
(2011).
Pax2/8 proteins coordinate sequential induction of otic and epibranchial placodes through differential regulation of foxi1, sox3 and fgf24. Developmental Biology.
351(1), 90-98.
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Sweet, E. M., Vemaraju, S., & Riley, B. B.
(2011).
Sox2 and Fgf interact with Atoh1 to promote sensory competence throughout the zebrafish inner ear. Developmental Biology.
358(1), 113-121.
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Riley, B. B., & Padanad, M.
(2010).
Early Patterning in the Zebrafish Inner Ear. The FASEB Journal.
24.
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Millimaki, B. B., Sweet, E. M., & Riley, B. B.
(2010).
Sox2 is required for maintenance and regeneration, but not initial development, of hair cells in the zebrafish inner ear. Developmental Biology.
338(2), 262-269.
-
Riley, B. B., Sweet, E. M., Heck, R., Evans, A., McFarland, K. N., Warga, R. M., & Kane, D. A
(2010).
Characterization of harpy/Rca1/emi1 mutants: patterning in the absence of cell division. Developmental Dynamics.
239(3), 828-843.
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Kwon, H., Bhat, N., Sweet, E. M., Cornell, R. A., & Riley, B. B.
(2010).
Identification of early requirements for preplacodal ectoderm and sensory organ development. PLOS Genetics.
6(9), e1001133-e1001133.
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Manohar, M., Mei, H., Franklin, A. J., Sweet, E. M., Shigaki, T., Riley, B. B., Macdiarmid, C. W., & Hirschi, K
(2010).
Zebrafish (Danio rerio) endomembrane antiporter similar to a yeast cation/H(+) transporter is required for neural crest development. Biochemistry.
49(31), 6557-6566.
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Kwon, H., & Riley, B. B
(2009).
Mesendodermal signals required for otic induction: Bmp-antagonists cooperate with Fgf and can facilitate formation of ectopic otic tissue. Developmental Dynamics.
238(6), 1582-1594.
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Petko, J. A., Millimaki, B. B., Canfield, V. A., Riley, B. B., & Levenson, R
(2008).
Otoc1: a novel otoconin-90 ortholog required for otolith mineralization in zebrafish. 68(2), 209-222.
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Millimaki, B. B., Sweet, E. M., Dhason, M. S., & Riley, B. B
(2007).
Zebrafish atoh1 genes: classic proneural activity in the inner ear and regulation by Fgf and Notch. Development (Cambridge).
134(2), 295-305.
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Phillips, B. T., Kwon, H., Melton, C., Houghtaling, P., Fritz, A., & Riley, B. B.
(2006).
Zebrafish msxB, msxC and msxE function together to refine the neural-nonneural border and regulate cranial placodes and neural crest development. Developmental Biology.
294(2), 376-390.
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Kwak, S., Vemaraju, S., Moorman, S. J., Zeddies, D., Popper, A. N., & Riley, B. B
(2006).
Zebrafish pax5 regulates development of the utricular macula and vestibular function. Developmental Dynamics.
235(11), 3026-3038.
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Mackereth, M. D., Kwak, S., Fritz, A., & Riley, B. B
(2005).
Zebrafish pax8 is required for otic placode induction and plays a redundant role with Pax2 genes in the maintenance of the otic placode. Development (Cambridge).
132(2), 371-382.
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Phillips, B. T., Storch, E. M., Lekven, A. C., & Riley, B. B
(2004).
A direct role for Fgf but not Wnt in otic placode induction. Development (Cambridge).
131(4), 923-931.
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Riley, B. B., Chiang, M., Storch, E. M., Heck, R., Buckles, G. R., & Lekven, A. C
(2004).
Rhombomere boundaries are Wnt signaling centers that regulate metameric patterning in the zebrafish hindbrain. Developmental Dynamics.
231(2), 278-291.
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Riley, B. B.
(2003).
Genes controlling the development of the zebrafish inner ear and hair cells. 57, 357-388.
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Riley, B. B., & Phillips, B. T.
(2003).
Ringing in the new ear: resolution of cell interactions in otic development. Developmental Biology.
261(2), 289-312.
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Kwak, S., Phillips, B. T., Heck, R., & Riley, B. B.
(2002).
An expanded domain of fgf3 expression in the hindbrain of zebrafish valentino mutants results in mis-patterning of the otic vesicle. Development (Cambridge).
129(22), 5279-5287.
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Whitfield, T. T., Riley, B. B., Chiang, M., & Phillips, B
(2002).
Development of the zebrafish inner ear. Developmental Dynamics.
223(4), 427-458.
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Riley, B. B., Chiang, M. Y., Lekven, A. C., & Moon, R. T.
(2001).
A signaling network required to maintain rhombomere boundaries as organizing centers in the zebrafish hindbrain. The FASEB Journal.
15(5), A742-A742.
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Phillips, B. T., Bolding, K., & Riley, B. B.
(2001).
Zebrafish fgf3 and fgf8 encode redundant functions required for otic placode induction. Developmental Biology.
235(2), 351-365.
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Riley, B. B., & Moorman, S. J.
(2000).
Development of utricular otoliths, but not saccular otoliths, is necessary for vestibular function and survival in zebrafish. 43(4), 329-337.
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Appel, B., Fritz, A., Westerfield, M., Grunwald, D. J., Eisen, J. S., & Riley, B. B.
(1999).
Delta-mediated specification of midline cell fates in zebrafish embryos. Current Biology.
9(5), 247-256.
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Mendonsa, E. S., & Riley, B. B.
(1999).
Genetic analysis of tissue interactions required for otic placode induction in the zebrafish. Developmental Biology.
206(1), 100-112.
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Riley, B. B., Chiang, M., Farmer, L., & Heck, R
(1999).
The deltaA gene of zebrafish mediates lateral inhibition of hair cells in the inner ear and is regulated by pax2.1. Development (Cambridge).
126(24), 5669-5678.
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Riley, B. B., Zhu, C., Janetopoulos, C., & Aufderheide, K. J.
(1997).
A critical period of ear development controlled by distinct populations of ciliated cells in the zebrafish. Developmental Biology.
191(2), 191-201.
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Riley, B. B., & Grunwald, D. J.
(1996).
A mutation in zebrafish affecting a localized cellular function required for normal ear development. Developmental Biology.
179(2), 427-435.
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Riley, B. B., & Grunwald, D. J.
(1995).
Efficient induction of point mutations allowing recovery of specific locus mutations in zebrafish. Proceedings of the National Academy of Sciences of the United States of America.
92(13), 5997-6001.
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Olwin, B. B., Arthur, K., Hannon, K., Hein, P., Zhou, Z., Zuber, M. E., ... Fallon, J. F.
(1994).
Role of FGFs in skeletal muscle and limb development. Molecular Reproduction and Development.
39(1), 90-101.
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Savage, M. P., Fallon, J. F., Hart, C. E., Riley, B. B., Sasse, J., & Olwin, B. B.
(1993).
Distribution of FGF‐2 suggests it has a role in chick limb bud growth. Developmental Dynamics.
198(3), 159-170.
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Riley, B. B., Savage, M. P., Simandl, B. K., Olwin, B. B., & Fallon, J. F.
(1993).
Retroviral expression of FGF-2 (bFGF) affects patterning in chick limb bud. Development (Cambridge).
118(1), 95-104.
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Olwin, B. B., Riley, B., & Fallon, J. F.
(1993).
A method for ectopic expression of foreign genes in the chicken limb in vivo. Progress in clinical and biological research.
383B, 635-643.
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Riley, B. B., & Barclay, S. L.
(1990).
Ammonia promotes accumulation of intracellular cAMP in differentiating amoebae of Dictyostelium discoideum. Development (Cambridge).
109(3), 715-722.
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Riley, B. B., & Barclay, S. L.
(1990).
Conditions that alter intracellular cAMP levels affect expression of the cAMP phosphodiesterase gene in Dictyostelium. Proceedings of the National Academy of Sciences of the United States of America.
87(12), 4746-4750.
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Riley, B. B., Jensen, B. R., & Barclay, S. L.
(1989).
Conditions that elevate intracellular cyclic AMP levels promote spore formation in Dictyostelium. Differentiation.
41(1), 5-13.
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Riley, B. B., & Barclay, S. L.
(1986).
Inhibitors of intracellular cyclic AMP accumulation affect differentiation of sporogenous mutants of Dictyostelium discoideum. FEMS Microbiology Letters.
37(2), 221-226.
-
Riley, B. B.
(2021).
Comparative assessment of Fgf's diverse roles in inner ear development: A zebrafish perspective. Developmental Dynamics.
250(11), 1524-1551.
-
chapter
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Riley, B. B.
(2013).
Induction and morphogenesis of the inner ear. Molecular Signaling of Mammalian Inner Ear Development.
(pp. 27-64).
Nova Science Publishers.
-
Riley, B. B.
(2013).
Induction and morphogenesis of the inner ear. Molecular Signaling of Mammalian Inner Ear Development.
(pp. 27-64).
Nova Science Publishers.
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conference paper
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Holloway, N. D., Mackenzie, D. S., & Riley, B. B.
(2020).
Evidence for expression of the sodium iodide symporter (NIS) in novel neural and ovarian locations in teleost fish. INTEGRATIVE AND COMPARATIVE BIOLOGY.
E104-E104.
-
Riley, B. B., Kwon, H., Bhat, N., & Cornell, R. A.
(2008).
Reassessing Bmp's role in early development of cranial placodes. Developmental Biology.
599-600.
-
Riley, B. B., Kwak, S. J., Vemaraju, S., & Moorman, S. J.
(2005).
Genetic specification and neural refinement of vestibular function in the zebrafish inner ear. Developmental Biology.
672-672.
-
Riley, B. B., Phillips, B. T., & Fritz, A.
(2000).
Role of muscle segment homeobox-B (msxB) in zebrafish neural development. Developmental Biology.
258-258.
-
Holloway, N. D., Mackenzie, D. S., & Riley, B. B.
(2020).
Evidence for expression of the sodium iodide symporter (NIS) in novel neural and ovarian locations in teleost fish. INTEGRATIVE AND COMPARATIVE BIOLOGY.
E104-E104.
Research
principal investigator on
Teaching
teaching activities
- BICH491 Hnr-research Instructor
- BIOL291 Research Instructor
- BIOL344 Embryology Instructor
- BIOL414 Developmental Biology Instructor
- BIOL491 Hnr-research Instructor
- BIOL611 Developmental Genetics Instructor
- BIOL681 Sem: Dvlpmnt Genetcs Jrnl Club Instructor
- BIOL681 Sem: Dvlpmnt Genetcs Jrnl Club Instructor
- BIOL681 Sem: Dvlpmnt Genetcs Jrnl Club Instructor
- BIOL681 Sem: Dvlpmnt Genetcs Jrnl Club Instructor
- BIOL681 Seminar: Dvlpmntl Gntics Jrnl Instructor
- BIOL685 Directed Studies Instructor
- BIOL691 Research Instructor
- GENE491 Hnr-research Instructor
- GENE691 Research Instructor
Works By Students
chaired theses and dissertations
-
Bhat, Neha 1985- (2013-01). Developmental Mechanisms Regulating Specification of Preplacodal Ectoderm and its Morphogenesis into Sensory Placodes in Zebrafish.
-
Kantarci, Husniye (2017-08). Reverse and Forward Genetics Approaches Reveal the Gene Networks That Regulate Development of Inner Ear Neurons.
-
Kwak, Su Jin (2006-08). Functional analysis of pax2/5/8 genes and their genetic interactions in zebrafish ear development.
-
Millimaki, Bonny Butler (2010-10). The Function and Genetic Interactions of Zebrafish atoh1 and sox2: Genes Involved in Hair Cell Development and Regeneration.
-
Padanad, Mahesh (2012-10). The Role of Fgf and Its Downstream Effectors in Otic and Epibranchial Development in Zebrafish.
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Phillips, Bryan T. (2006-04). Molecular analysis of placodal development in zebrafish.
-
Stevenson, Adam L. (2010-07). Developing a Rate Equation Simulation Environment Using Microsoft Silverlight.
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Vemaraju, Shruti (2012-02). Neurosensory Development in the Zebrafish Inner Ear.
Background
education and training
- Ph.D. in Molecular Biology, University of Wisconsin - Madison - (Madison, Wisconsin, United States) 1990
- B.A. in Biology, University of Colorado Boulder - (Boulder, Colorado, United States) 1982
- University of Utah - (Salt Lake City, Utah, United States) , Postdoctoral Training 1992
- University of Wisconsin - Madison - (Madison, Wisconsin, United States) , Postdoctoral Training 1990
Contact
first name
- Bruce
has last name
- Riley
mailing address
-
Texas A&M University
Biology
3258 TAMU
College Station, TX 77843-3258
USA
Other
- bruce-b-riley@tamu.edu