Search Results - "Chang, Weise"

Gradients of glucose metabolism regulate morphogen signalling required for specifying tonotopic organization in the chicken cochlea by O'Sullivan, James D B, Blacker, Thomas S, Scott, Claire, Chang, Weise, Ahmed, Mohi, Yianni, Val, Mann, Zoe F

“…In vertebrates with elongated auditory organs, mechanosensory hair cells (HCs) are organised such that complex sounds are broken down into their component…”
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Blast-induced hearing impairment in rats is associated with structural and molecular changes of the inner ear by Wang, Ying, Urioste, Rodrigo T., Wei, Yanling, Wilder, Donna M., Arun, Peethambaran, Sajja, Venkatasivasaisujith, Gist, Irene D., Fitzgerald, Tracy S., Chang, Weise, Kelley, Matthew W., Long, Joseph B.

“…Auditory dysfunction is the most prevalent injury associated with blast overpressure exposure (BOP) in Warfighters and civilians, yet little is known about the…”
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Bmp4 is essential for the formation of the vestibular apparatus that detects angular head movements by Chang, Weise, Lin, Zhengshi, Kulessa, Holger, Hebert, Jean, Hogan, Brigid L M, Wu, Doris K

“…Angular head movements in vertebrates are detected by the three semicircular canals of the inner ear and their associated sensory tissues, the cristae. Bone…”
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Patterning and morphogenesis of the vertebrate inner ear by Bok, Jinwoong, Chang, Weise, Wu, Doris K

“…The positional cues for formation of individual inner ear components are dependent on pre-established axial information conferred by inductive signals from…”
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Expression and function of scleraxis in the developing auditory system by Mann, Zoe F, Chang, Weise, Lee, Kyu Yup, King, Kelly A, Kelley, Matthew W

“…A study of genes expressed in the developing inner ear identified the bHLH transcription factor Scleraxis (Scx) in the developing cochlea. Previous work has…”
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A New Compartment at Stereocilia Tips Defined by Spatial and Temporal Patterns of Myosin IIIa Expression by Schneider, Mark E, Dose, Andrea C, Salles, Felipe T, Chang, Weise, Erickson, Floyd L, Burnside, Beth, Kachar, Bechara

“…Class III myosins are motor proteins that contain an N-terminal kinase domain and a C-terminal actin-binding domain. We show that myosin IIIa, which has been…”
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The role of Pax2 in mouse inner ear development by Burton, Quianna, Cole, Laura K, Mulheisen, Michael, Chang, Weise, Wu, Doris K

“…The paired box transcription factor, Pax2, is important for cochlear development in the mouse inner ear. Two mutant alleles of Pax2, a knockout and a…”
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The development of semicircular canals in the inner ear: role of FGFs in sensory cristae by Chang, Weise, Brigande, John V, Fekete, Donna M, Wu, Doris K

“…In the vertebrate inner ear, the ability to detect angular head movements lies in the three semicircular canals and their sensory tissues, the cristae. The…”
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BMP Pathways Are Involved in Otic Capsule Formation and Epithelial–Mesenchymal Signaling in the Developing Chicken Inner Ear by Chang, Weise, ten Dijke, Peter, Wu, Doris K.

“…The vertebrate inner ear consists of a complex labyrinth of epithelial cells that is surrounded by a bony capsule. The molecular mechanisms coordinating the…”
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Ectopic Noggin Blocks Sensory and Nonsensory Organ Morphogenesis in the Chicken Inner Ear by Chang, Weise, Nunes, Fabio D., De Jesus-Escobar, Jose M., Harland, Richard, Wu, Doris K.

“…Bone morphogenetic protein 4 (Bmp4) is expressed during multiple stages of development of the chicken inner ear. At the otocyst stage, Bmp4 is expressed in…”
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Calnexin-dependent Enhancement of Nicotinic Acetylcholine Receptor Assembly and Surface Expression by Chang, Weise, Gelman, Marina S., Prives, Joav M.

“…The muscle-type nicotinic acetylcholine receptor (AChR)2 is a pentameric membrane ion channel assembled in the endoplasmic reticulum from four homologous…”
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Rbpj regulates development of prosensory cells in the mammalian inner ear by Yamamoto, Norio, Chang, Weise, Kelley, Matthew W.

“…The vertebrate inner ear contains multiple sensory patches comprised of hair cells and supporting cells. During development these sensory patches arise from…”
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Role of the Endoplasmic Reticulum Chaperone Calnexin in Subunit Folding and Assembly of Nicotinic Acetylcholine Receptors (∗) by Gelman, Marina S., Chang, Weise, Thomas, David Y., Bergeron, John J.M., Prives, Joav M.

“…The nicotinic acetylcholine receptor (AChR) is a pentameric complex assembled from four different gene products by mechanisms that are inadequately understood…”
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Retinoic acid signalling regulates the development of tonotopically patterned hair cells in the chicken cochlea by Thiede, Benjamin R., Mann, Zoë F., Chang, Weise, Ku, Yuan-Chieh, Son, Yena K., Lovett, Michael, Kelley, Matthew W., Corwin, Jeffrey T.

“…Precise frequency discrimination is a hallmark of auditory function in birds and mammals and is required for distinguishing similar sounding words, like ‘bat,’…”
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Spectrum of genes for inherited hearing loss in the Israeli Jewish population, including the novel human deafness gene ATOH1 by Brownstein, Zippora, Gulsuner, Suleyman, Walsh, Tom, Martins, Fábio T.A., Taiber, Shahar, Isakov, Ofer, Lee, Ming K., Bordeynik‐Cohen, Mor, Birkan, Maria, Chang, Weise, Casadei, Silvia, Danial‐Farran, Nada, Abu‐Rayyan, Amal, Carlson, Ryan, Kamal, Lara, Arnthórsson, Asgeir Ö., Sokolov, Meirav, Gilony, Dror, Lipschitz, Noga, Frydman, Moshe, Davidov, Bella, Macarov, Michal, Sagi, Michal, Vinkler, Chana, Poran, Hana, Sharony, Reuven, Samra, Nadra, Zvi, Na'ama, Baris‐Feldman, Hagit, Singer, Amihood, Handzel, Ophir, Hertzano, Ronna, Ali‐Naffaa, Doaa, Ruhrman‐Shahar, Noa, Madgar, Ory, Sofrin‐Drucker, Efrat, Peleg, Amir, Khayat, Morad, Shohat, Mordechai, Basel‐Salmon, Lina, Pras, Elon, Lev, Dorit, Wolf, Michael, Steingrimsson, Eirikur, Shomron, Noam, Kelley, Matthew W., Kanaan, Moien N., Allon‐Shalev, Stavit, King, Mary‐Claire, Avraham, Karen B.

“…Mutations in more than 150 genes are responsible for inherited hearing loss, with thousands of different, severe causal alleles that vary among populations…”
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A gradient of Bmp7 specifies the tonotopic axis in the developing inner ear by Mann, Zoë F., Thiede, Benjamin R., Chang, Weise, Shin, Jung-Bum, May-Simera, Helen L., Lovett, Michael, Corwin, Jeffrey T., Kelley, Matthew W.

“…The auditory systems of animals that perceive sounds in air are organized to separate sound stimuli into their component frequencies. Individual tones then…”
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Correction: Corrigendum: A gradient of Bmp7 specifies the tonotopic axis in the developing inner ear by Mann, Zoë F., Thiede, Benjamin R., Chang, Weise, Shin, Jung-Bum, May-Simera, Helen L., Lovett, Michael, Corwin, Jeffrey T., Kelley, Matthew W.

“…Nature Communications 5: Article number: 3839 (2014); Published: 20 May 2014; Updated: 1 August 2014. In this Article, several graphs in Fig. 2 have an…”
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Bmp4 Is Essential for the Formation of the Vestibular Apparatus that Detects Angular Head Movements: e1000050 by Chang, Weise, Lin, Zhengshi, Kulessa, Holger, Hebert, Jean, Hogan, Brigid LM, Wu, Doris K

“…Angular head movements in vertebrates are detected by the three semicircular canals of the inner ear and their associated sensory tissues, the cristae. Bone…”
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Corrigendum: A gradient of Bmp7 specifies the tonotopic axis in the developing inner ear by Mann, Zoë F, Thiede, Benjamin R, Chang, Weise, Shin, Jung-bum, May-simera, Helen L, Lovett, Michael, Corwin, Jeffrey T, Kelley, Matthew W

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Identification of Phosphorylation Sites on AChR δ-Subunit Associated with Dispersal of AChR Clusters on the Surface of Muscle Cells by Nimnual, Anjaruwee S, Chang, Weise, Chang, Nan-Shan, Ross, Anthony F, Gelman, Marina S, Prives, Joav M

“…The innervation of embryonic skeletal muscle cells is marked by the redistribution of nicotinic acetylcholine receptors (AChRs) on muscle surface membranes…”
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