Results 81 to 90 of about 63,448 (198)
Discovery of Novel Materials with Giant Dielectric Constants via First‐Principles Phonon Calculations and Machine Learning
Advanced Intelligent Discovery, EarlyView.We discovered novel materials with giant dielectric constants by combining first‐principles phonon calculations and machine learning. Screening 525 perovskites identified six candidates. RbNbO3 was synthesized under pressure and showed ε ≈ 800–1000. This validates our framework as a powerful tool for high‐performance dielectric materials discovery.Hiroki Moriwake, Kazuki Shitara, Rie Yokoi, Takeharu Kato, Isao Tanaka, Ayako Yamamoto, Kimitoshi Murase, Yosuke Hamasaiki, Yoshitaka Ehara, Mitsuru Itoh +9 morewiley +1 more sourceDiscussion: “Adaptive Control Optimization of Grinding” (Amitay, G., Malkin, S., and Koren, Y., 1981, ASME J. Eng. Ind., 103, pp. 103–109) [PDF]
, 1981 M. C. Shawopenalex +1 more sourceCase Series of Nizon‐Isidor Syndrome by Heterozygous Variants in MED12L With Further Evidence of Mitotic Instability in One Case With Diploid–Triploid Mosaicism
American Journal of Medical Genetics Part A, EarlyView.ABSTRACT
Nizon‐Isidor syndrome is a rare disorder caused by heterozygous variants in MED12L, with only eight documented cases in the literature. Here, we present three additional cases of this syndrome. Proband 1 was a 7‐year‐old female who presented with developmental delay, right‐leg hemihypertrophy, laryngeal cleft, esotropia, abnormal skin ...Russell Stewart, Kimberly M. Ezell, Deanna S. Bell, Brian Corner, Ashley McMinn, Joy D. Cogan, Rizwan Hamid, Lynette Rives, John A. Phillips III, Nina Paddu, Gitanjali Srivastava, Ronit Marom, Farah A. Ladha, Claudia Soler‐Alfonso, Rachel Franciskovich, Mary Koziura, Sumit Pruthi, Gabriele Richard, Christina B. Sheedy, Undiagnosed Diseases Network, Aaron Quinlan, Abdul Elkadri, Adeline Vanderver, Adriana Rebelo, Alan H. Beggs, Albert R. La Spada, Alden Huang, Alex Paul, Alexander Miller, Ali Al‐Beshri, Alistair Ward, Allen Bale, Allyn McConkie‐Rosell, Alyssa A. Tran, Andrea Gropman, Andres Vargas, Andrew B. Crouse, Andrew Stergachis, Anna Hurst, Anna Raper, Arjun Tarakad, Ashley Andrews, Ashley McMinn, Ashok Balasubramanyam, Barbara N. Pusey Swerdzewski, Beatriz Anguiano, Ben Solomon, Beth A. Martin, Bianca E. Russell, Brandon M Wilk, Breanna Mitchell, Brendan C. Lanpher, Brendan H. Lee, Brent L. Fogel, Brett Bordini, Brett H. Graham, Brian Corner, Brianna Tucker, Bruce Korf, Calum A. MacRae, Camilo Toro, Cara Skraban, Carlos A. Bacino, Carol Oladele, Caroline Hendry, Carson A. Smith, Cecilia Esteves, Changrui Xiao, Chloe M. Reuter, Christine M. Eng, Chun‐Hung Chan, Colleen E. Wahl, Corrine K. Welt, Cynthia J. Tifft, Dana Kiley, Daniel J. Rader, Daniel Wegner, Danny Miller, Daryl A. Scott, Dave Viskochil, David A. Sweetser, David R. Adams, Deborah Barbouth, Deepak A. Rao, Devin Oglesbee, Devon Bonner, Donald Basel, Donna Novacic, Dustin Baldridge, Edward Behrens, Edwin K. Silverman, Elaine Seto, Elijah Kravets, Elisabeth Rosenthal, Elizabeth A Worthey, Elizabeth A. Burke, Elizabeth Blue, Elizabeth C. Chao, Elizabeth L. Fieg, Ellen F. Macnamara, Elsa Balton, Emily Glanton, Emily Shelkowitz, Emily Wang, Eric Allenspach, Eric Klee, Eric Vilain, Erin Conboy, Erin E. Baldwin, Erin McRoy, Esteban C. Dell’Angelica, Euan A. Ashley, F. Sessions Cole, Filippo Pinto, Frances High, Francesco Vetrini, Francis Rossignol, Francisco Bustos, Fuki M. Hisama, Gabor Marth, Gail P. Jarvik, Gary D. Clark, George Carvalho, Gerard T. Berry, Ghayda Mirzaa, Giorgio Sirugo, Gonench Kilich, Guney Bademci, Hector Rodrigo Mendez, Heidi Wood, Herman Taylor, Holly K. Tabor, Hongzheng Dai, Hsiao‐Tuan Chao, Hua Xu, Hugo J. Bellen, Hui Zhang, Ian Glass, Ian R. Lanza, Ingrid A. Holm, Isaac S. Kohane, Isum Ward, Ivan Chinn, J. Carl Pallais, Jacinda B. Sampson, James P. Orengo, James Verbsky, Jared Sninsky, Jason Hom, Jason Schend, Jennefer N. Kohler, Jennifer E. Posey, Jennifer Morgan, Jennifer Schymick, Jennifer Wambach, Jessica Douglas, Jiayu Fu, Jill A. Rosenfeld, Jimann Shin, Joan M. Stoler, Joanna M. Gonzalez, John A. Phillips, John Carey, John E. Gorzynski, John J. Mulvihill, Joie Davis, Jonathan A. Bernstein, Jordan Whitlock, Jose Abdenur, Joseph Loscalzo, Joy D. Cogan, Julian A. Martínez‐Agosto, Julie McCarrier, Justin Alvey, Kahlen Darr, Kaitlin Callaway, Kathleen A. Leppig, Kathleen Sullivan, Kathy Sisco, Kathyrn Singh, Katrina Dipple, Kayla M. Treat, Kelly Hassey, Kelly Schoch, Kevin S. Smith, Khurram Liaqat, Kim Worley, Kimberly Ezell, Kimberly LeBlanc, Kumarie Latchman, Lance H. Rodan, Laura Keehan, Laura Pace, Laurel A. Cobban, Lauren Blieden, Lauren C. Briere, Lauren Jeffries, Laurens Wiel, Layal F. Abi Farraj, Leoyklang Petcharet, LéShon Peart, Lili Mantcheva, Lilianna Solnica‐Krezel, Lindsay C. Burrage, Lindsay Mulvihill, Lisa Schimmenti, Lisa T. Emrick, Lorenzo Botto, Lorraine Potocki, Lynette Rives, Lynne A. Wolfe, Maija‐Rikka Steenari, Manish J. Butte, Margaret Delgado, María José Ortuño Romero, Maria T. Acosta, Marie Morimoto, Mariko Nakano‐Okuno, Mark Gerstein, Mark Wener, Marla Sabaii, Martha Horike‐Pyne, Martin G. Martin, Martin Rodriguez, Matt Velinder, Matthew Coggins, Matthew Might, Matthew T. Wheeler, MayChristine V. Malicdan, Megan Bell, Meghan C. Halley, Melissa Walker, Mia Levanto, Michael Bamshad, Michael F. Wangler, Michael Muriello, Michael Zimmermann, Michele Spencer‐Manzon, Miranda Leitheiser, Mohamad Mikati, Mohamad Saifeddine, Monika Weisz Hubshman, Monkol Lek, Monte Westerfield, Mustafa Tekin, Nada Derar, Naghmeh Dorrani, Neil H. Parker, Neil Hanchard, Nicholas Borja, Nicola Longo, Nicole M. Walley, Nitsuh K. Dargie, Odelya Kaufman, Oguz Kanca, Orpa Jean‐Marie, Page C. Goddard, Paolo Moretti, Patricia A. Ward, Patricia Dickson, Paul Berger, Paul G. Fisher, Pengfei Liu, Peter Byers, Pinar Bayrak‐Toydemir, Precilla D’Souza, Queenie Tan, Rachel A. Ungar, Rachel Li, Rachel Mahoney, Ramakrishnan Rajagopalan, Raquel L. Alvarez, Rebecca C. Spillmann, Rebecca Ganetzky, Rebecca Overbury, Rebekah Barrick, Richard A. Lewis, Richard L. Maas, Rizwan Hamid, Rong Mao, Ronit Marom, Rosario I. Corona, Runjun Kumar, Russell Butterfield, Sanaz Attaripour, Sandesh Nagamani, Sara Emami, Seema R. Lalani, Serena Neumann, Seth Perlman, Shamika Ketkar, Shamil R. Sunyaev, Shilpa N. Kobren, Shinya Yamamoto, Shrikant Mane, Shruti Marwaha, Sirisak Chanprasert, Stanley F. Nelson, Stephan Zuchner, Stephanie Bivona, Stephanie M. Ware, Stephen B Montgomery, Stephen Pak, Steven Boyden, Suha Bachir, Surendra Dasari, Susan Korrick, Suzanne Sandmeyer, Tahseen Mozaffar, Tammi Skelton, Tanner D Jensen, Tarun KK Mamidi, Taylor Beagle, Taylor Maurer, Teodoro Jerves Serrano, Terra R. Coakley, Thomas Cassini, Thomas J. Nicholas, Timothy Schedl, Tiphanie P. Vogel, Vaidehi Jobanputra, Valerie V. Maduro, Vandana Shashi, Vasilis Vasiliou, Virginia Sybert, Vishnu Cuddapah, Wendy Introne, Wendy Raskind, Willa Thorson, William A. Gahl, William E. Byrd, William J. Craigen, Winston Halstead, Yan Huang, Yigit Karasozen, Yong‐Hui Jiang, Thomas Cassini +336 morewiley +1 more sourceTargeted Medical Therapies for Vascular Anomalies: A Clinical Review
American Journal of Medical Genetics Part C: Seminars in Medical Genetics, EarlyView.ABSTRACT
Vascular anomalies represent a broad spectrum of disorders characterized by aberrant blood or lymphatic vessel development, which can lead to complex clinical phenotypes. Historically, vascular anomalies were classified solely on the basis of their clinical and histopathologic features.Whitney Engwiley +1 more sourceEtwa eine Billion Mal saurer als erwartet? Über den Unterschied zwischen der Hammett‐H0 und der vereinheitlichten pH‐Azidität der Schwefelsäure
Angewandte Chemie, EarlyView.Runter mit der Brille! Mithilfe von Indikatorbasen wird die weit verbreitete Hammett´sche H0 Azidität bestimmt, mit der reine Schwefelsäure bisher charakterisiert wird. Das ist aber so ähnlich, als schaut man durch eine Sonnenbrille: trotz ihrer Nützlichkeit wirkt diese als Filter.Valentin Radtke, Monika Bäuerle, Regina Stroh, Timo Kienzle, Daniel Himmel, Agnes Heering, Jaak Nerut, Enn Lust, Ivo Leito, Ingo Krossing +9 morewiley +1 more sourceKo‐Assemblierungen regulieren die katalytische Aktivität von Peptidfibrillen
Angewandte Chemie, EarlyView.Katalytische selbstassemblierende Peptide (kSAPs) bilden Fibrillen, die die Retro‐Aldol‐Reaktion von Methodol katalysieren. Die Ko‐Assemblierung mit inaktiven Peptiden reguliert die katalytische Aktivität, indem sie die Zugänglichkeit des Substrats und den Abstand zum nukleophilen Lysin verändert.Albin Lahu, Shao‐Lin Wu, Maximilian Schuler, Francesca Mazzotta, Ardit Ramadani, Emirhan Koca, Ingo Lieberwirth, Katharina Landfester, Torsten John, David Y. W. Ng, Tanja Weil +10 morewiley +1 more source
