Adenomatous polyposis coli

^[1] ^[2] ^[3] ^[4] ^[5] ^[6] ^[7] ^[8] ^[9] ^[10] ^[11] ^[12] ^[13] ^[14] ^[15] ^[16] ^[17] ^[18] ^[19] ^[20] ^[21] ^[22] ^[23] ^[24] ^[25] ^[26] ^[27] ^[28] ^[29] ^[30] ^[31] ^[32] ^[33] ^[34] ^[35] ^[36] ^[37] ^[38] ^[39] ^[40] ^[41] ^[42] ^[43] ^[44] ^[45] ^[46] ^[47] ^[48] ^[49]

↑ Galiatsatos, P., & Foulkes, W.D. (2006).
Familial adenomatous polyposis. The American journal of gastroenterology, 101(2), 385-98. [PubMed:16454848] [WorldCat] [DOI]
↑ Anbumani, S., Godfrey, G., Hall, W.A., Shah, J., Knechtges, P., Erickson, B., ..., & Noid, G. (2024).
Enhancing pancreatic tumor delineation using dual-energy CT-derived extracellular volume fraction map. Biomedical physics & engineering express, 11(1). [PubMed:39541600] [WorldCat] [DOI]
Kidder, K.M., & Noid, W.G. (2024).
Analysis of mapping atomic models to coarse-grained resolution. The Journal of chemical physics, 161(13). [PubMed:39365018] [WorldCat] [DOI]
Jin, J., Noid, W.G., Li, J., Kumar, R., Cao, J., Jang, S., ..., & Reichman, D. (2024).
A Tribute to Gregory A. Voth. The journal of physical chemistry. B, 128(32), 7703-7706. [PubMed:39143864] [WorldCat] [DOI]
Noid, W.G., Szukalo, R.J., Kidder, K.M., & Lesniewski, M.C. (2024).
Rigorous Progress in Coarse-Graining. Annual review of physical chemistry, 75(1), 21-45. [PubMed:38941523] [WorldCat] [DOI]
Katare, A., Sikha, S., & Mandal, B. (2024).
Synergistic enhancement of CO₂/N₂ separation performance via Ce-MOF-infused chitosan mixed matrix membrane. Environmental science and pollution research international. [PubMed:38561537] [WorldCat] [DOI]
Kidder, K.M., Shell, M.S., & Noid, W.G. (2024).
Surveying the energy landscape of coarse-grained mappings. The Journal of chemical physics, 160(5). [PubMed:38310476] [WorldCat] [DOI]
Lesniewski, M.C., & Noid, W.G. (2024).
Insight into the Density-Dependence of Pair Potentials for Predictive Coarse-Grained Models. The journal of physical chemistry. B, 128(5), 1298-1316. [PubMed:38271676] [WorldCat] [DOI]
Amidon, R.F., Livingston, K., Kleefisch, C.J., Martens, M., Straza, M., Puckett, L., ..., & Bovi, J.A. (2024).
Cystic Brain Metastasis Outcomes After Gamma Knife Radiation Therapy. Advances in radiation oncology, 9(1), 101304. [PubMed:38260234] [PMC] [WorldCat] [DOI]
Laurin, B.J., Straza, M., Noid, G., Connelly, J.M., Mueller, W.M., Bovi, J., & Krucoff, M.O. (2023).
Symptomatic radionecrosis after postoperative but not preoperative stereotactic radiosurgery in a single patient: illustrative case. Journal of neurosurgery. Case lessons, 6(16). [PubMed:37870754] [PMC] [WorldCat] [DOI]
Szukalo, R.J., & Noid, W.G. (2023).
A temperature-dependent length-scale for transferable local density potentials. The Journal of chemical physics, 159(7). [PubMed:37589407] [WorldCat] [DOI]
Krist, K.T., & Noid, W.G. (2023).
Relating the artificial chemotaxis of catalysts to a gradient descent of the free energy. The Journal of chemical physics, 158(21). [PubMed:37265211] [WorldCat] [DOI]
Katare, A., Borgohain, R., Prasad, B., & Mandal, B. (2023).
A Strategical Improvement in the Performance of CO₂/N₂ Gas Permeation via Conjugation of L-Tyrosine onto Chitosan Membrane. Membranes, 13(5). [PubMed:37233548] [PMC] [WorldCat] [DOI]
Noid, W.G. (2023).
Perspective: Advances, Challenges, and Insight for Predictive Coarse-Grained Models. The journal of physical chemistry. B, 127(19), 4174-4207. [PubMed:37149781] [WorldCat] [DOI]
Tazi, K.Y., & Rogers, R. (2023).
Falling through the cracks: Failing to identify compromised Miranda abilities for defendants with limited cognitive capacities. Behavioral sciences & the law, 41(5), 326-342. [PubMed:36866414] [WorldCat] [DOI]
Mandalaparthy, V., Bui, P.T., & Noid, W.G. (2022).
The influence of cross-interactions between dilute cosolutes upon liquid interfaces. The Journal of chemical physics, 157(18), 184706. [PubMed:36379786] [WorldCat] [DOI]
Noid, G., Godfrey, G., Hall, W., Shah, J., Paulson, E., Knechtges, P., ..., & Allen Li, X. (2023).
Predicting Treatment Response From Extracellular Volume Fraction for Chemoradiation Therapy of Pancreatic Cancer. International journal of radiation oncology, biology, physics, 115(3), 803-808. [PubMed:36210026] [WorldCat] [DOI]
Mandalaparthy, V., & Noid, W.G. (2022).
A simple theory for interfacial properties of dilute solutions. The Journal of chemical physics, 157(3), 034703. [PubMed:35868931] [WorldCat] [DOI]
Pan, N., Auyeung, B., Wang, X., Lin, L.Z., Li, H.L., Zhan, X.L., ..., & Li, X.H. (2022).
Empathizing, systemizing, empathizing-systemizing difference and their association with autistic traits in children with autism spectrum disorder, with and without intellectual disability. Autism research : official journal of the International Society for Autism Research, 15(7), 1348-1357. [PubMed:35719032] [WorldCat] [DOI]
Majee, R., Parvin, S., Arif Islam, Q., Kumar, A., Debnath, B., Mondal, S., ..., & Bhattacharyya, S. (2022).
The Perfect Imperfections in Electrocatalysts. Chemical record (New York, N.Y.), 22(9), e202200070. [PubMed:35675947] [WorldCat] [DOI]
Beloozerova, I.N., Nilaweera, W.U., Viana Di Prisco, G., & Marlinski, V. (2023).
Signals from posterior parietal area 5 to motor cortex during locomotion. Cerebral cortex (New York, N.Y. : 1991), 33(4), 1014-1043. [PubMed:35383368] [PMC] [WorldCat] [DOI]
↑ Groden, J., Thliveris, A., Samowitz, W., Carlson, M., Gelbert, L., Albertsen, H., ..., & Robertson, M. (1991).
Identification and characterization of the familial adenomatous polyposis coli gene. Cell, 66(3), 589-600. [PubMed:1651174] [WorldCat] [DOI]
↑ Joslyn, G., Carlson, M., Thliveris, A., Albertsen, H., Gelbert, L., Samowitz, W., ..., & Robertson, M. (1991).
Identification of deletion mutations and three new genes at the familial polyposis locus. Cell, 66(3), 601-13. [PubMed:1678319] [WorldCat] [DOI]
↑ Kinzler, K.W., Nilbert, M.C., Su, L.K., Vogelstein, B., Bryan, T.M., Levy, D.B., ..., & McKechnie, D. (1991).
Identification of FAP locus genes from chromosome 5q21. Science (New York, N.Y.), 253(5020), 661-5. [PubMed:1651562] [WorldCat] [DOI]
↑ Rise, M.L., Frankel, W.N., Coffin, J.M., & Seyfried, T.N. (1991).
Genes for epilepsy mapped in the mouse. Science (New York, N.Y.), 253(5020), 669-73. [PubMed:1871601] [WorldCat] [DOI]
↑ Powell, S.M., Zilz, N., Beazer-Barclay, Y., Bryan, T.M., Hamilton, S.R., Thibodeau, S.N., ..., & Kinzler, K.W. (1992).
APC mutations occur early during colorectal tumorigenesis. Nature, 359(6392), 235-7. [PubMed:1528264] [WorldCat] [DOI]
↑ Goss, K.H., & Groden, J. (2000).
Biology of the adenomatous polyposis coli tumor suppressor. Journal of clinical oncology : official journal of the American Society of Clinical Oncology, 18(9), 1967-79. [PubMed:10784639] [WorldCat] [DOI]
↑ Nusse, R., & Clevers, H. (2017).
Wnt/β-Catenin Signaling, Disease, and Emerging Therapeutic Modalities. Cell, 169(6), 985-999. [PubMed:28575679] [WorldCat] [DOI]
↑ Hanson, C.A., & Miller, J.R. (2005).
Non-traditional roles for the Adenomatous Polyposis Coli (APC) tumor suppressor protein. Gene, 361, 1-12. [PubMed:16185824] [WorldCat] [DOI]
↑ Bhat, R.V., Baraban, J.M., Johnson, R.C., Eipper, B.A., & Mains, R.E. (1994).
High levels of expression of the tumor suppressor gene APC during development of the rat central nervous system. The Journal of neuroscience : the official journal of the Society for Neuroscience, 14(5 Pt 2), 3059-71. [PubMed:8182459] [PMC] [WorldCat] [DOI]
↑ Miyashiro, I., Senda, T., Matsumine, A., Baeg, G.H., Kuroda, T., Shimano, T., ..., & Monden, M. (1995).
Subcellular localization of the APC protein: immunoelectron microscopic study of the association of the APC protein with catenin. Oncogene, 11(1), 89-96. [PubMed:7624136] [WorldCat]
↑ Midgley, C.A., White, S., Howitt, R., Save, V., Dunlop, M.G., Hall, P.A., ..., & Bubb, V.J. (1997).
APC expression in normal human tissues. The Journal of pathology, 181(4), 426-33. [PubMed:9196441] [WorldCat] [DOI]
↑ Anbumani, S., Godfrey, G., Hall, W.A., Shah, J., Knechtges, P., Erickson, B., ..., & Noid, G. (2024).
Enhancing pancreatic tumor delineation using dual-energy CT-derived extracellular volume fraction map. Biomedical physics & engineering express, 11(1). [PubMed:39541600] [WorldCat] [DOI]
Kidder, K.M., & Noid, W.G. (2024).
Analysis of mapping atomic models to coarse-grained resolution. The Journal of chemical physics, 161(13). [PubMed:39365018] [WorldCat] [DOI]
Jin, J., Noid, W.G., Li, J., Kumar, R., Cao, J., Jang, S., ..., & Reichman, D. (2024).
A Tribute to Gregory A. Voth. The journal of physical chemistry. B, 128(32), 7703-7706. [PubMed:39143864] [WorldCat] [DOI]
Noid, W.G., Szukalo, R.J., Kidder, K.M., & Lesniewski, M.C. (2024).
Rigorous Progress in Coarse-Graining. Annual review of physical chemistry, 75(1), 21-45. [PubMed:38941523] [WorldCat] [DOI]
Katare, A., Sikha, S., & Mandal, B. (2024).
Synergistic enhancement of CO₂/N₂ separation performance via Ce-MOF-infused chitosan mixed matrix membrane. Environmental science and pollution research international. [PubMed:38561537] [WorldCat] [DOI]
Kidder, K.M., Shell, M.S., & Noid, W.G. (2024).
Surveying the energy landscape of coarse-grained mappings. The Journal of chemical physics, 160(5). [PubMed:38310476] [WorldCat] [DOI]
Lesniewski, M.C., & Noid, W.G. (2024).
Insight into the Density-Dependence of Pair Potentials for Predictive Coarse-Grained Models. The journal of physical chemistry. B, 128(5), 1298-1316. [PubMed:38271676] [WorldCat] [DOI]
Amidon, R.F., Livingston, K., Kleefisch, C.J., Martens, M., Straza, M., Puckett, L., ..., & Bovi, J.A. (2024).
Cystic Brain Metastasis Outcomes After Gamma Knife Radiation Therapy. Advances in radiation oncology, 9(1), 101304. [PubMed:38260234] [PMC] [WorldCat] [DOI]
Laurin, B.J., Straza, M., Noid, G., Connelly, J.M., Mueller, W.M., Bovi, J., & Krucoff, M.O. (2023).
Symptomatic radionecrosis after postoperative but not preoperative stereotactic radiosurgery in a single patient: illustrative case. Journal of neurosurgery. Case lessons, 6(16). [PubMed:37870754] [PMC] [WorldCat] [DOI]
Szukalo, R.J., & Noid, W.G. (2023).
A temperature-dependent length-scale for transferable local density potentials. The Journal of chemical physics, 159(7). [PubMed:37589407] [WorldCat] [DOI]
Krist, K.T., & Noid, W.G. (2023).
Relating the artificial chemotaxis of catalysts to a gradient descent of the free energy. The Journal of chemical physics, 158(21). [PubMed:37265211] [WorldCat] [DOI]
Katare, A., Borgohain, R., Prasad, B., & Mandal, B. (2023).
A Strategical Improvement in the Performance of CO₂/N₂ Gas Permeation via Conjugation of L-Tyrosine onto Chitosan Membrane. Membranes, 13(5). [PubMed:37233548] [PMC] [WorldCat] [DOI]
Noid, W.G. (2023).
Perspective: Advances, Challenges, and Insight for Predictive Coarse-Grained Models. The journal of physical chemistry. B, 127(19), 4174-4207. [PubMed:37149781] [WorldCat] [DOI]
Tazi, K.Y., & Rogers, R. (2023).
Falling through the cracks: Failing to identify compromised Miranda abilities for defendants with limited cognitive capacities. Behavioral sciences & the law, 41(5), 326-342. [PubMed:36866414] [WorldCat] [DOI]
Mandalaparthy, V., Bui, P.T., & Noid, W.G. (2022).
The influence of cross-interactions between dilute cosolutes upon liquid interfaces. The Journal of chemical physics, 157(18), 184706. [PubMed:36379786] [WorldCat] [DOI]
Noid, G., Godfrey, G., Hall, W., Shah, J., Paulson, E., Knechtges, P., ..., & Allen Li, X. (2023).
Predicting Treatment Response From Extracellular Volume Fraction for Chemoradiation Therapy of Pancreatic Cancer. International journal of radiation oncology, biology, physics, 115(3), 803-808. [PubMed:36210026] [WorldCat] [DOI]
Mandalaparthy, V., & Noid, W.G. (2022).
A simple theory for interfacial properties of dilute solutions. The Journal of chemical physics, 157(3), 034703. [PubMed:35868931] [WorldCat] [DOI]
Pan, N., Auyeung, B., Wang, X., Lin, L.Z., Li, H.L., Zhan, X.L., ..., & Li, X.H. (2022).
Empathizing, systemizing, empathizing-systemizing difference and their association with autistic traits in children with autism spectrum disorder, with and without intellectual disability. Autism research : official journal of the International Society for Autism Research, 15(7), 1348-1357. [PubMed:35719032] [WorldCat] [DOI]
Majee, R., Parvin, S., Arif Islam, Q., Kumar, A., Debnath, B., Mondal, S., ..., & Bhattacharyya, S. (2022).
The Perfect Imperfections in Electrocatalysts. Chemical record (New York, N.Y.), 22(9), e202200070. [PubMed:35675947] [WorldCat] [DOI]
Beloozerova, I.N., Nilaweera, W.U., Viana Di Prisco, G., & Marlinski, V. (2023).
Signals from posterior parietal area 5 to motor cortex during locomotion. Cerebral cortex (New York, N.Y. : 1991), 33(4), 1014-1043. [PubMed:35383368] [PMC] [WorldCat] [DOI]
↑ van Es, J.H., Giles, R.H., & Clevers, H.C. (2001).
The many faces of the tumor suppressor gene APC. Experimental cell research, 264(1), 126-34. [PubMed:11237529] [WorldCat] [DOI]
↑ Fearnhead, N.S., Britton, M.P., & Bodmer, W.F. (2001).
The ABC of APC. Human molecular genetics, 10(7), 721-33. [PubMed:11257105] [WorldCat] [DOI]
↑ Matsumine, A., Ogai, A., Senda, T., Okumura, N., Satoh, K., Baeg, G.H., ..., & Akiyama, T. (1996).
Binding of APC to the human homolog of the Drosophila discs large tumor suppressor protein. Science (New York, N.Y.), 272(5264), 1020-3. [PubMed:8638125] [WorldCat] [DOI]
↑ Nakagawa, H., Murata, Y., Koyama, K., Fujiyama, A., Miyoshi, Y., Monden, M., ..., & Nakamura, Y. (1998).
Identification of a brain-specific APC homologue, APCL, and its interaction with beta-catenin. Cancer research, 58(22), 5176-81. [PubMed:9823329] [WorldCat]
↑ van Es, J.H., Kirkpatrick, C., van de Wetering, M., Molenaar, M., Miles, A., Kuipers, J., ..., & Clevers, H. (1999).
Identification of APC2, a homologue of the adenomatous polyposis coli tumour suppressor. Current biology : CB, 9(2), 105-8. [PubMed:10021369] [WorldCat] [DOI]
↑ Senda, T., Iino, S., Matsushita, K., Matsumine, A., Kobayashi, S., & Akiyama, T. (1998).
Localization of the adenomatous polyposis coli tumour suppressor protein in the mouse central nervous system. Neuroscience, 83(3), 857-66. [PubMed:9483569] [WorldCat] [DOI]
↑ Brakeman, J.S., Gu, S.H., Wang, X.B., Dolin, G., & Baraban, J.M. (1999).
Neuronal localization of the Adenomatous polyposis coli tumor suppressor protein. Neuroscience, 91(2), 661-72. [PubMed:10366023] [WorldCat] [DOI]
↑ Shimomura, A., Ohkuma, M., Iizuka-Kogo, A., Kohu, K., Nomura, R., Miyachi, E., ..., & Senda, T. (2007).
Requirement of the tumour suppressor APC for the clustering of PSD-95 and AMPA receptors in hippocampal neurons. The European journal of neuroscience, 26(4), 903-12. [PubMed:17714185] [WorldCat] [DOI]
↑ Lee, H.N., Jeon, G.S., Kim, D.W., Cho, I.H., & Cho, S.S. (2010).
Expression of adenomatous polyposis coli protein in reactive astrocytes in hippocampus of kainic acid-induced rat. Neurochemical research, 35(1), 114-21. [PubMed:19655246] [WorldCat] [DOI]
↑ Bhat, R.V., Axt, K.J., Fosnaugh, J.S., Smith, K.J., Johnson, K.A., Hill, D.E., ..., & Baraban, J.M. (1996).
Expression of the APC tumor suppressor protein in oligodendroglia. Glia, 17(2), 169-74. [PubMed:8776583] [WorldCat] [DOI]
↑ Yokota, Y., Kim, W.Y., Chen, Y., Wang, X., Stanco, A., Komuro, Y., ..., & Anton, E.S. (2009).
The adenomatous polyposis coli protein is an essential regulator of radial glial polarity and construction of the cerebral cortex. Neuron, 61(1), 42-56. [PubMed:19146812] [PMC] [WorldCat] [DOI]
↑ Senda, T., Shimomura, A., & Iizuka-Kogo, A. (2005).
Adenomatous polyposis coli (Apc) tumor suppressor gene as a multifunctional gene. Anatomical science international, 80(3), 121-31. [PubMed:16158975] [WorldCat] [DOI]
↑ Kawasaki, Y., Senda, T., Ishidate, T., Koyama, R., Morishita, T., Iwayama, Y., ..., & Akiyama, T. (2000).
Asef, a link between the tumor suppressor APC and G-protein signaling. Science (New York, N.Y.), 289(5482), 1194-7. [PubMed:10947987] [WorldCat] [DOI]
↑ Kawasaki, Y., Sato, R., & Akiyama, T. (2003).
Mutated APC and Asef are involved in the migration of colorectal tumour cells. Nature cell biology, 5(3), 211-5. [PubMed:12598901] [WorldCat] [DOI]
↑ Fodde, R., Kuipers, J., Rosenberg, C., Smits, R., Kielman, M., Gaspar, C., ..., & Clevers, H. (2001).
Mutations in the APC tumour suppressor gene cause chromosomal instability. Nature cell biology, 3(4), 433-8. [PubMed:11283620] [WorldCat] [DOI]
↑ Dikovskaya, D., Schiffmann, D., Newton, I.P., Oakley, A., Kroboth, K., Sansom, O., ..., & Näthke, I.S. (2007).
Loss of APC induces polyploidy as a result of a combination of defects in mitosis and apoptosis. The Journal of cell biology, 176(2), 183-95. [PubMed:17227893] [PMC] [WorldCat] [DOI]
↑ Näthke, I.S., Adams, C.L., Polakis, P., Sellin, J.H., & Nelson, W.J. (1996).
The adenomatous polyposis coli tumor suppressor protein localizes to plasma membrane sites involved in active cell migration. The Journal of cell biology, 134(1), 165-79. [PubMed:8698812] [PMC] [WorldCat] [DOI]
↑ Mimori-Kiyosue, Y., Shiina, N., & Tsukita, S. (2000).
Adenomatous polyposis coli (APC) protein moves along microtubules and concentrates at their growing ends in epithelial cells. The Journal of cell biology, 148(3), 505-18. [PubMed:10662776] [PMC] [WorldCat] [DOI]
↑ Votin, V., Nelson, W.J., & Barth, A.I. (2005).
Neurite outgrowth involves adenomatous polyposis coli protein and beta-catenin. Journal of cell science, 118(Pt 24), 5699-708. [PubMed:16303851] [PMC] [WorldCat] [DOI]
↑ Senda, T., Iizuka-Kogo, A., Onouchi, T., & Shimomura, A. (2007).
Adenomatous polyposis coli (APC) plays multiple roles in the intestinal and colorectal epithelia. Medical molecular morphology, 40(2), 68-81. [PubMed:17572842] [WorldCat] [DOI]
↑ Wang, J., Jing, Z., Zhang, L., Zhou, G., Braun, J., Yao, Y., & Wang, Z.Z. (2003).
Regulation of acetylcholine receptor clustering by the tumor suppressor APC. Nature neuroscience, 6(10), 1017-8. [PubMed:14502292] [WorldCat] [DOI]
↑ Temburni, M.K., Rosenberg, M.M., Pathak, N., McConnell, R., & Jacob, M.H. (2004).
Neuronal nicotinic synapse assembly requires the adenomatous polyposis coli tumor suppressor protein. The Journal of neuroscience : the official journal of the Society for Neuroscience, 24(30), 6776-84. [PubMed:15282282] [PMC] [WorldCat] [DOI]
↑ Rosenberg, M.M., Yang, F., Mohn, J.L., Storer, E.K., & Jacob, M.H. (2010).
The postsynaptic adenomatous polyposis coli (APC) multiprotein complex is required for localizing neuroligin and neurexin to neuronal nicotinic synapses in vivo. The Journal of neuroscience : the official journal of the Society for Neuroscience, 30(33), 11073-85. [PubMed:20720115] [PMC] [WorldCat] [DOI]
↑ Imura, T., Wang, X., Noda, T., Sofroniew, M.V., & Fushiki, S. (2010).
Adenomatous polyposis coli is essential for both neuronal differentiation and maintenance of adult neural stem cells in subventricular zone and hippocampus. Stem cells (Dayton, Ohio), 28(11), 2053-2064. [PubMed:21089118] [PMC] [WorldCat] [DOI]
↑ Anbumani, S., Godfrey, G., Hall, W.A., Shah, J., Knechtges, P., Erickson, B., ..., & Noid, G. (2024).
Enhancing pancreatic tumor delineation using dual-energy CT-derived extracellular volume fraction map. Biomedical physics & engineering express, 11(1). [PubMed:39541600] [WorldCat] [DOI]
Kidder, K.M., & Noid, W.G. (2024).
Analysis of mapping atomic models to coarse-grained resolution. The Journal of chemical physics, 161(13). [PubMed:39365018] [WorldCat] [DOI]
Jin, J., Noid, W.G., Li, J., Kumar, R., Cao, J., Jang, S., ..., & Reichman, D. (2024).
A Tribute to Gregory A. Voth. The journal of physical chemistry. B, 128(32), 7703-7706. [PubMed:39143864] [WorldCat] [DOI]
Noid, W.G., Szukalo, R.J., Kidder, K.M., & Lesniewski, M.C. (2024).
Rigorous Progress in Coarse-Graining. Annual review of physical chemistry, 75(1), 21-45. [PubMed:38941523] [WorldCat] [DOI]
Katare, A., Sikha, S., & Mandal, B. (2024).
Synergistic enhancement of CO₂/N₂ separation performance via Ce-MOF-infused chitosan mixed matrix membrane. Environmental science and pollution research international. [PubMed:38561537] [WorldCat] [DOI]
Kidder, K.M., Shell, M.S., & Noid, W.G. (2024).
Surveying the energy landscape of coarse-grained mappings. The Journal of chemical physics, 160(5). [PubMed:38310476] [WorldCat] [DOI]
Lesniewski, M.C., & Noid, W.G. (2024).
Insight into the Density-Dependence of Pair Potentials for Predictive Coarse-Grained Models. The journal of physical chemistry. B, 128(5), 1298-1316. [PubMed:38271676] [WorldCat] [DOI]
Amidon, R.F., Livingston, K., Kleefisch, C.J., Martens, M., Straza, M., Puckett, L., ..., & Bovi, J.A. (2024).
Cystic Brain Metastasis Outcomes After Gamma Knife Radiation Therapy. Advances in radiation oncology, 9(1), 101304. [PubMed:38260234] [PMC] [WorldCat] [DOI]
Laurin, B.J., Straza, M., Noid, G., Connelly, J.M., Mueller, W.M., Bovi, J., & Krucoff, M.O. (2023).
Symptomatic radionecrosis after postoperative but not preoperative stereotactic radiosurgery in a single patient: illustrative case. Journal of neurosurgery. Case lessons, 6(16). [PubMed:37870754] [PMC] [WorldCat] [DOI]
Szukalo, R.J., & Noid, W.G. (2023).
A temperature-dependent length-scale for transferable local density potentials. The Journal of chemical physics, 159(7). [PubMed:37589407] [WorldCat] [DOI]
Krist, K.T., & Noid, W.G. (2023).
Relating the artificial chemotaxis of catalysts to a gradient descent of the free energy. The Journal of chemical physics, 158(21). [PubMed:37265211] [WorldCat] [DOI]
Katare, A., Borgohain, R., Prasad, B., & Mandal, B. (2023).
A Strategical Improvement in the Performance of CO₂/N₂ Gas Permeation via Conjugation of L-Tyrosine onto Chitosan Membrane. Membranes, 13(5). [PubMed:37233548] [PMC] [WorldCat] [DOI]
Noid, W.G. (2023).
Perspective: Advances, Challenges, and Insight for Predictive Coarse-Grained Models. The journal of physical chemistry. B, 127(19), 4174-4207. [PubMed:37149781] [WorldCat] [DOI]
Tazi, K.Y., & Rogers, R. (2023).
Falling through the cracks: Failing to identify compromised Miranda abilities for defendants with limited cognitive capacities. Behavioral sciences & the law, 41(5), 326-342. [PubMed:36866414] [WorldCat] [DOI]
Mandalaparthy, V., Bui, P.T., & Noid, W.G. (2022).
The influence of cross-interactions between dilute cosolutes upon liquid interfaces. The Journal of chemical physics, 157(18), 184706. [PubMed:36379786] [WorldCat] [DOI]
Noid, G., Godfrey, G., Hall, W., Shah, J., Paulson, E., Knechtges, P., ..., & Allen Li, X. (2023).
Predicting Treatment Response From Extracellular Volume Fraction for Chemoradiation Therapy of Pancreatic Cancer. International journal of radiation oncology, biology, physics, 115(3), 803-808. [PubMed:36210026] [WorldCat] [DOI]
Mandalaparthy, V., & Noid, W.G. (2022).
A simple theory for interfacial properties of dilute solutions. The Journal of chemical physics, 157(3), 034703. [PubMed:35868931] [WorldCat] [DOI]
Pan, N., Auyeung, B., Wang, X., Lin, L.Z., Li, H.L., Zhan, X.L., ..., & Li, X.H. (2022).
Empathizing, systemizing, empathizing-systemizing difference and their association with autistic traits in children with autism spectrum disorder, with and without intellectual disability. Autism research : official journal of the International Society for Autism Research, 15(7), 1348-1357. [PubMed:35719032] [WorldCat] [DOI]
Majee, R., Parvin, S., Arif Islam, Q., Kumar, A., Debnath, B., Mondal, S., ..., & Bhattacharyya, S. (2022).
The Perfect Imperfections in Electrocatalysts. Chemical record (New York, N.Y.), 22(9), e202200070. [PubMed:35675947] [WorldCat] [DOI]
Beloozerova, I.N., Nilaweera, W.U., Viana Di Prisco, G., & Marlinski, V. (2023).
Signals from posterior parietal area 5 to motor cortex during locomotion. Cerebral cortex (New York, N.Y. : 1991), 33(4), 1014-1043. [PubMed:35383368] [PMC] [WorldCat] [DOI]
↑ Etienne-Manneville, S., Manneville, J.B., Nicholls, S., Ferenczi, M.A., & Hall, A. (2005).
Cdc42 and Par6-PKCzeta regulate the spatially localized association of Dlg1 and APC to control cell polarization. The Journal of cell biology, 170(6), 895-901. [PubMed:16157700] [PMC] [WorldCat] [DOI]
↑ Koester, M.P., Müller, O., & Pollerberg, G.E. (2007).
Adenomatous polyposis coli is differentially distributed in growth cones and modulates their steering. The Journal of neuroscience : the official journal of the Society for Neuroscience, 27(46), 12590-600. [PubMed:18003838] [PMC] [WorldCat] [DOI]
↑ Anbumani, S., Godfrey, G., Hall, W.A., Shah, J., Knechtges, P., Erickson, B., ..., & Noid, G. (2024).
Enhancing pancreatic tumor delineation using dual-energy CT-derived extracellular volume fraction map. Biomedical physics & engineering express, 11(1). [PubMed:39541600] [WorldCat] [DOI]
Kidder, K.M., & Noid, W.G. (2024).
Analysis of mapping atomic models to coarse-grained resolution. The Journal of chemical physics, 161(13). [PubMed:39365018] [WorldCat] [DOI]
Jin, J., Noid, W.G., Li, J., Kumar, R., Cao, J., Jang, S., ..., & Reichman, D. (2024).
A Tribute to Gregory A. Voth. The journal of physical chemistry. B, 128(32), 7703-7706. [PubMed:39143864] [WorldCat] [DOI]
Noid, W.G., Szukalo, R.J., Kidder, K.M., & Lesniewski, M.C. (2024).
Rigorous Progress in Coarse-Graining. Annual review of physical chemistry, 75(1), 21-45. [PubMed:38941523] [WorldCat] [DOI]
Katare, A., Sikha, S., & Mandal, B. (2024).
Synergistic enhancement of CO₂/N₂ separation performance via Ce-MOF-infused chitosan mixed matrix membrane. Environmental science and pollution research international. [PubMed:38561537] [WorldCat] [DOI]
Kidder, K.M., Shell, M.S., & Noid, W.G. (2024).
Surveying the energy landscape of coarse-grained mappings. The Journal of chemical physics, 160(5). [PubMed:38310476] [WorldCat] [DOI]
Lesniewski, M.C., & Noid, W.G. (2024).
Insight into the Density-Dependence of Pair Potentials for Predictive Coarse-Grained Models. The journal of physical chemistry. B, 128(5), 1298-1316. [PubMed:38271676] [WorldCat] [DOI]
Amidon, R.F., Livingston, K., Kleefisch, C.J., Martens, M., Straza, M., Puckett, L., ..., & Bovi, J.A. (2024).
Cystic Brain Metastasis Outcomes After Gamma Knife Radiation Therapy. Advances in radiation oncology, 9(1), 101304. [PubMed:38260234] [PMC] [WorldCat] [DOI]
Laurin, B.J., Straza, M., Noid, G., Connelly, J.M., Mueller, W.M., Bovi, J., & Krucoff, M.O. (2023).
Symptomatic radionecrosis after postoperative but not preoperative stereotactic radiosurgery in a single patient: illustrative case. Journal of neurosurgery. Case lessons, 6(16). [PubMed:37870754] [PMC] [WorldCat] [DOI]
Szukalo, R.J., & Noid, W.G. (2023).
A temperature-dependent length-scale for transferable local density potentials. The Journal of chemical physics, 159(7). [PubMed:37589407] [WorldCat] [DOI]
Krist, K.T., & Noid, W.G. (2023).
Relating the artificial chemotaxis of catalysts to a gradient descent of the free energy. The Journal of chemical physics, 158(21). [PubMed:37265211] [WorldCat] [DOI]
Katare, A., Borgohain, R., Prasad, B., & Mandal, B. (2023).
A Strategical Improvement in the Performance of CO₂/N₂ Gas Permeation via Conjugation of L-Tyrosine onto Chitosan Membrane. Membranes, 13(5). [PubMed:37233548] [PMC] [WorldCat] [DOI]
Noid, W.G. (2023).
Perspective: Advances, Challenges, and Insight for Predictive Coarse-Grained Models. The journal of physical chemistry. B, 127(19), 4174-4207. [PubMed:37149781] [WorldCat] [DOI]
Tazi, K.Y., & Rogers, R. (2023).
Falling through the cracks: Failing to identify compromised Miranda abilities for defendants with limited cognitive capacities. Behavioral sciences & the law, 41(5), 326-342. [PubMed:36866414] [WorldCat] [DOI]
Mandalaparthy, V., Bui, P.T., & Noid, W.G. (2022).
The influence of cross-interactions between dilute cosolutes upon liquid interfaces. The Journal of chemical physics, 157(18), 184706. [PubMed:36379786] [WorldCat] [DOI]
Noid, G., Godfrey, G., Hall, W., Shah, J., Paulson, E., Knechtges, P., ..., & Allen Li, X. (2023).
Predicting Treatment Response From Extracellular Volume Fraction for Chemoradiation Therapy of Pancreatic Cancer. International journal of radiation oncology, biology, physics, 115(3), 803-808. [PubMed:36210026] [WorldCat] [DOI]
Mandalaparthy, V., & Noid, W.G. (2022).
A simple theory for interfacial properties of dilute solutions. The Journal of chemical physics, 157(3), 034703. [PubMed:35868931] [WorldCat] [DOI]
Pan, N., Auyeung, B., Wang, X., Lin, L.Z., Li, H.L., Zhan, X.L., ..., & Li, X.H. (2022).
Empathizing, systemizing, empathizing-systemizing difference and their association with autistic traits in children with autism spectrum disorder, with and without intellectual disability. Autism research : official journal of the International Society for Autism Research, 15(7), 1348-1357. [PubMed:35719032] [WorldCat] [DOI]
Majee, R., Parvin, S., Arif Islam, Q., Kumar, A., Debnath, B., Mondal, S., ..., & Bhattacharyya, S. (2022).
The Perfect Imperfections in Electrocatalysts. Chemical record (New York, N.Y.), 22(9), e202200070. [PubMed:35675947] [WorldCat] [DOI]
Beloozerova, I.N., Nilaweera, W.U., Viana Di Prisco, G., & Marlinski, V. (2023).
Signals from posterior parietal area 5 to motor cortex during locomotion. Cerebral cortex (New York, N.Y. : 1991), 33(4), 1014-1043. [PubMed:35383368] [PMC] [WorldCat] [DOI]
↑ Fodde, R. (2002).
The APC gene in colorectal cancer. European journal of cancer (Oxford, England : 1990), 38(7), 867-71. [PubMed:11978510] [WorldCat] [DOI]
↑ Anbumani, S., Godfrey, G., Hall, W.A., Shah, J., Knechtges, P., Erickson, B., ..., & Noid, G. (2024).
Enhancing pancreatic tumor delineation using dual-energy CT-derived extracellular volume fraction map. Biomedical physics & engineering express, 11(1). [PubMed:39541600] [WorldCat] [DOI]
Kidder, K.M., & Noid, W.G. (2024).
Analysis of mapping atomic models to coarse-grained resolution. The Journal of chemical physics, 161(13). [PubMed:39365018] [WorldCat] [DOI]
Jin, J., Noid, W.G., Li, J., Kumar, R., Cao, J., Jang, S., ..., & Reichman, D. (2024).
A Tribute to Gregory A. Voth. The journal of physical chemistry. B, 128(32), 7703-7706. [PubMed:39143864] [WorldCat] [DOI]
Noid, W.G., Szukalo, R.J., Kidder, K.M., & Lesniewski, M.C. (2024).
Rigorous Progress in Coarse-Graining. Annual review of physical chemistry, 75(1), 21-45. [PubMed:38941523] [WorldCat] [DOI]
Katare, A., Sikha, S., & Mandal, B. (2024).
Synergistic enhancement of CO₂/N₂ separation performance via Ce-MOF-infused chitosan mixed matrix membrane. Environmental science and pollution research international. [PubMed:38561537] [WorldCat] [DOI]
Kidder, K.M., Shell, M.S., & Noid, W.G. (2024).
Surveying the energy landscape of coarse-grained mappings. The Journal of chemical physics, 160(5). [PubMed:38310476] [WorldCat] [DOI]
Lesniewski, M.C., & Noid, W.G. (2024).
Insight into the Density-Dependence of Pair Potentials for Predictive Coarse-Grained Models. The journal of physical chemistry. B, 128(5), 1298-1316. [PubMed:38271676] [WorldCat] [DOI]
Amidon, R.F., Livingston, K., Kleefisch, C.J., Martens, M., Straza, M., Puckett, L., ..., & Bovi, J.A. (2024).
Cystic Brain Metastasis Outcomes After Gamma Knife Radiation Therapy. Advances in radiation oncology, 9(1), 101304. [PubMed:38260234] [PMC] [WorldCat] [DOI]
Laurin, B.J., Straza, M., Noid, G., Connelly, J.M., Mueller, W.M., Bovi, J., & Krucoff, M.O. (2023).
Symptomatic radionecrosis after postoperative but not preoperative stereotactic radiosurgery in a single patient: illustrative case. Journal of neurosurgery. Case lessons, 6(16). [PubMed:37870754] [PMC] [WorldCat] [DOI]
Szukalo, R.J., & Noid, W.G. (2023).
A temperature-dependent length-scale for transferable local density potentials. The Journal of chemical physics, 159(7). [PubMed:37589407] [WorldCat] [DOI]
Krist, K.T., & Noid, W.G. (2023).
Relating the artificial chemotaxis of catalysts to a gradient descent of the free energy. The Journal of chemical physics, 158(21). [PubMed:37265211] [WorldCat] [DOI]
Katare, A., Borgohain, R., Prasad, B., & Mandal, B. (2023).
A Strategical Improvement in the Performance of CO₂/N₂ Gas Permeation via Conjugation of L-Tyrosine onto Chitosan Membrane. Membranes, 13(5). [PubMed:37233548] [PMC] [WorldCat] [DOI]
Noid, W.G. (2023).
Perspective: Advances, Challenges, and Insight for Predictive Coarse-Grained Models. The journal of physical chemistry. B, 127(19), 4174-4207. [PubMed:37149781] [WorldCat] [DOI]
Tazi, K.Y., & Rogers, R. (2023).
Falling through the cracks: Failing to identify compromised Miranda abilities for defendants with limited cognitive capacities. Behavioral sciences & the law, 41(5), 326-342. [PubMed:36866414] [WorldCat] [DOI]
Mandalaparthy, V., Bui, P.T., & Noid, W.G. (2022).
The influence of cross-interactions between dilute cosolutes upon liquid interfaces. The Journal of chemical physics, 157(18), 184706. [PubMed:36379786] [WorldCat] [DOI]
Noid, G., Godfrey, G., Hall, W., Shah, J., Paulson, E., Knechtges, P., ..., & Allen Li, X. (2023).
Predicting Treatment Response From Extracellular Volume Fraction for Chemoradiation Therapy of Pancreatic Cancer. International journal of radiation oncology, biology, physics, 115(3), 803-808. [PubMed:36210026] [WorldCat] [DOI]
Mandalaparthy, V., & Noid, W.G. (2022).
A simple theory for interfacial properties of dilute solutions. The Journal of chemical physics, 157(3), 034703. [PubMed:35868931] [WorldCat] [DOI]
Pan, N., Auyeung, B., Wang, X., Lin, L.Z., Li, H.L., Zhan, X.L., ..., & Li, X.H. (2022).
Empathizing, systemizing, empathizing-systemizing difference and their association with autistic traits in children with autism spectrum disorder, with and without intellectual disability. Autism research : official journal of the International Society for Autism Research, 15(7), 1348-1357. [PubMed:35719032] [WorldCat] [DOI]
Majee, R., Parvin, S., Arif Islam, Q., Kumar, A., Debnath, B., Mondal, S., ..., & Bhattacharyya, S. (2022).
The Perfect Imperfections in Electrocatalysts. Chemical record (New York, N.Y.), 22(9), e202200070. [PubMed:35675947] [WorldCat] [DOI]
Beloozerova, I.N., Nilaweera, W.U., Viana Di Prisco, G., & Marlinski, V. (2023).
Signals from posterior parietal area 5 to motor cortex during locomotion. Cerebral cortex (New York, N.Y. : 1991), 33(4), 1014-1043. [PubMed:35383368] [PMC] [WorldCat] [DOI]
↑ Mohn, J.L., Alexander, J., Pirone, A., Palka, C.D., Lee, S.Y., Mebane, L., ..., & Jacob, M.H. (2014).
Adenomatous polyposis coli protein deletion leads to cognitive and autism-like disabilities. Molecular psychiatry, 19(10), 1133-42. [PubMed:24934177] [PMC] [WorldCat] [DOI]
↑ Zhou, X.L., Giacobini, M., Anderlid, B.M., Anckarsäter, H., Omrani, D., Gillberg, C., ..., & Lindblom, A. (2007).
Association of adenomatous polyposis coli (APC) gene polymorphisms with autism spectrum disorder (ASD). American journal of medical genetics. Part B, Neuropsychiatric genetics : the official publication of the International Society of Psychiatric Genetics, 144B(3), 351-4. [PubMed:17221838] [WorldCat] [DOI]
↑ Cui, D.H., Jiang, K.D., Jiang, S.D., Xu, Y.F., & Yao, H. (2005).
The tumor suppressor adenomatous polyposis coli gene is associated with susceptibility to schizophrenia. Molecular psychiatry, 10(7), 669-77. [PubMed:15768050] [WorldCat] [DOI]
↑ Cali, R.J., Nephew, B.C., Moore, C.M., Chumachenko, S., Sala, A.C., Cintron, B., ..., & Cruz-Correa, M. (2021).
Altered neural networks and cognition in a hereditary colon cancer. IBRO neuroscience reports, 11, 137-143. [PubMed:34693396] [PMC] [WorldCat] [DOI]
↑ Anbumani, S., Godfrey, G., Hall, W.A., Shah, J., Knechtges, P., Erickson, B., ..., & Noid, G. (2024).
Enhancing pancreatic tumor delineation using dual-energy CT-derived extracellular volume fraction map. Biomedical physics & engineering express, 11(1). [PubMed:39541600] [WorldCat] [DOI]
Kidder, K.M., & Noid, W.G. (2024).
Analysis of mapping atomic models to coarse-grained resolution. The Journal of chemical physics, 161(13). [PubMed:39365018] [WorldCat] [DOI]
Jin, J., Noid, W.G., Li, J., Kumar, R., Cao, J., Jang, S., ..., & Reichman, D. (2024).
A Tribute to Gregory A. Voth. The journal of physical chemistry. B, 128(32), 7703-7706. [PubMed:39143864] [WorldCat] [DOI]
Noid, W.G., Szukalo, R.J., Kidder, K.M., & Lesniewski, M.C. (2024).
Rigorous Progress in Coarse-Graining. Annual review of physical chemistry, 75(1), 21-45. [PubMed:38941523] [WorldCat] [DOI]
Katare, A., Sikha, S., & Mandal, B. (2024).
Synergistic enhancement of CO₂/N₂ separation performance via Ce-MOF-infused chitosan mixed matrix membrane. Environmental science and pollution research international. [PubMed:38561537] [WorldCat] [DOI]
Kidder, K.M., Shell, M.S., & Noid, W.G. (2024).
Surveying the energy landscape of coarse-grained mappings. The Journal of chemical physics, 160(5). [PubMed:38310476] [WorldCat] [DOI]
Lesniewski, M.C., & Noid, W.G. (2024).
Insight into the Density-Dependence of Pair Potentials for Predictive Coarse-Grained Models. The journal of physical chemistry. B, 128(5), 1298-1316. [PubMed:38271676] [WorldCat] [DOI]
Amidon, R.F., Livingston, K., Kleefisch, C.J., Martens, M., Straza, M., Puckett, L., ..., & Bovi, J.A. (2024).
Cystic Brain Metastasis Outcomes After Gamma Knife Radiation Therapy. Advances in radiation oncology, 9(1), 101304. [PubMed:38260234] [PMC] [WorldCat] [DOI]
Laurin, B.J., Straza, M., Noid, G., Connelly, J.M., Mueller, W.M., Bovi, J., & Krucoff, M.O. (2023).
Symptomatic radionecrosis after postoperative but not preoperative stereotactic radiosurgery in a single patient: illustrative case. Journal of neurosurgery. Case lessons, 6(16). [PubMed:37870754] [PMC] [WorldCat] [DOI]
Szukalo, R.J., & Noid, W.G. (2023).
A temperature-dependent length-scale for transferable local density potentials. The Journal of chemical physics, 159(7). [PubMed:37589407] [WorldCat] [DOI]
Krist, K.T., & Noid, W.G. (2023).
Relating the artificial chemotaxis of catalysts to a gradient descent of the free energy. The Journal of chemical physics, 158(21). [PubMed:37265211] [WorldCat] [DOI]
Katare, A., Borgohain, R., Prasad, B., & Mandal, B. (2023).
A Strategical Improvement in the Performance of CO₂/N₂ Gas Permeation via Conjugation of L-Tyrosine onto Chitosan Membrane. Membranes, 13(5). [PubMed:37233548] [PMC] [WorldCat] [DOI]
Noid, W.G. (2023).
Perspective: Advances, Challenges, and Insight for Predictive Coarse-Grained Models. The journal of physical chemistry. B, 127(19), 4174-4207. [PubMed:37149781] [WorldCat] [DOI]
Tazi, K.Y., & Rogers, R. (2023).
Falling through the cracks: Failing to identify compromised Miranda abilities for defendants with limited cognitive capacities. Behavioral sciences & the law, 41(5), 326-342. [PubMed:36866414] [WorldCat] [DOI]
Mandalaparthy, V., Bui, P.T., & Noid, W.G. (2022).
The influence of cross-interactions between dilute cosolutes upon liquid interfaces. The Journal of chemical physics, 157(18), 184706. [PubMed:36379786] [WorldCat] [DOI]
Noid, G., Godfrey, G., Hall, W., Shah, J., Paulson, E., Knechtges, P., ..., & Allen Li, X. (2023).
Predicting Treatment Response From Extracellular Volume Fraction for Chemoradiation Therapy of Pancreatic Cancer. International journal of radiation oncology, biology, physics, 115(3), 803-808. [PubMed:36210026] [WorldCat] [DOI]
Mandalaparthy, V., & Noid, W.G. (2022).
A simple theory for interfacial properties of dilute solutions. The Journal of chemical physics, 157(3), 034703. [PubMed:35868931] [WorldCat] [DOI]
Pan, N., Auyeung, B., Wang, X., Lin, L.Z., Li, H.L., Zhan, X.L., ..., & Li, X.H. (2022).
Empathizing, systemizing, empathizing-systemizing difference and their association with autistic traits in children with autism spectrum disorder, with and without intellectual disability. Autism research : official journal of the International Society for Autism Research, 15(7), 1348-1357. [PubMed:35719032] [WorldCat] [DOI]
Majee, R., Parvin, S., Arif Islam, Q., Kumar, A., Debnath, B., Mondal, S., ..., & Bhattacharyya, S. (2022).
The Perfect Imperfections in Electrocatalysts. Chemical record (New York, N.Y.), 22(9), e202200070. [PubMed:35675947] [WorldCat] [DOI]
Beloozerova, I.N., Nilaweera, W.U., Viana Di Prisco, G., & Marlinski, V. (2023).
Signals from posterior parietal area 5 to motor cortex during locomotion. Cerebral cortex (New York, N.Y. : 1991), 33(4), 1014-1043. [PubMed:35383368] [PMC] [WorldCat] [DOI]

[Galiatsatos2006-1] Galiatsatos, P., & Foulkes, W.D. (2006).
Familial adenomatous polyposis. The American journal of gastroenterology, 101(2), 385-98. [PubMed:16454848] [WorldCat] [DOI]

[Iwama2014-2] Anbumani, S., Godfrey, G., Hall, W.A., Shah, J., Knechtges, P., Erickson, B., ..., & Noid, G. (2024).
Enhancing pancreatic tumor delineation using dual-energy CT-derived extracellular volume fraction map. Biomedical physics & engineering express, 11(1). [PubMed:39541600] [WorldCat] [DOI]
Kidder, K.M., & Noid, W.G. (2024).
Analysis of mapping atomic models to coarse-grained resolution. The Journal of chemical physics, 161(13). [PubMed:39365018] [WorldCat] [DOI]
Jin, J., Noid, W.G., Li, J., Kumar, R., Cao, J., Jang, S., ..., & Reichman, D. (2024).
A Tribute to Gregory A. Voth. The journal of physical chemistry. B, 128(32), 7703-7706. [PubMed:39143864] [WorldCat] [DOI]
Noid, W.G., Szukalo, R.J., Kidder, K.M., & Lesniewski, M.C. (2024).
Rigorous Progress in Coarse-Graining. Annual review of physical chemistry, 75(1), 21-45. [PubMed:38941523] [WorldCat] [DOI]
Katare, A., Sikha, S., & Mandal, B. (2024).
Synergistic enhancement of CO₂/N₂ separation performance via Ce-MOF-infused chitosan mixed matrix membrane. Environmental science and pollution research international. [PubMed:38561537] [WorldCat] [DOI]
Kidder, K.M., Shell, M.S., & Noid, W.G. (2024).
Surveying the energy landscape of coarse-grained mappings. The Journal of chemical physics, 160(5). [PubMed:38310476] [WorldCat] [DOI]
Lesniewski, M.C., & Noid, W.G. (2024).
Insight into the Density-Dependence of Pair Potentials for Predictive Coarse-Grained Models. The journal of physical chemistry. B, 128(5), 1298-1316. [PubMed:38271676] [WorldCat] [DOI]
Amidon, R.F., Livingston, K., Kleefisch, C.J., Martens, M., Straza, M., Puckett, L., ..., & Bovi, J.A. (2024).
Cystic Brain Metastasis Outcomes After Gamma Knife Radiation Therapy. Advances in radiation oncology, 9(1), 101304. [PubMed:38260234] [PMC] [WorldCat] [DOI]
Laurin, B.J., Straza, M., Noid, G., Connelly, J.M., Mueller, W.M., Bovi, J., & Krucoff, M.O. (2023).
Symptomatic radionecrosis after postoperative but not preoperative stereotactic radiosurgery in a single patient: illustrative case. Journal of neurosurgery. Case lessons, 6(16). [PubMed:37870754] [PMC] [WorldCat] [DOI]
Szukalo, R.J., & Noid, W.G. (2023).
A temperature-dependent length-scale for transferable local density potentials. The Journal of chemical physics, 159(7). [PubMed:37589407] [WorldCat] [DOI]
Krist, K.T., & Noid, W.G. (2023).
Relating the artificial chemotaxis of catalysts to a gradient descent of the free energy. The Journal of chemical physics, 158(21). [PubMed:37265211] [WorldCat] [DOI]
Katare, A., Borgohain, R., Prasad, B., & Mandal, B. (2023).
A Strategical Improvement in the Performance of CO₂/N₂ Gas Permeation via Conjugation of L-Tyrosine onto Chitosan Membrane. Membranes, 13(5). [PubMed:37233548] [PMC] [WorldCat] [DOI]
Noid, W.G. (2023).
Perspective: Advances, Challenges, and Insight for Predictive Coarse-Grained Models. The journal of physical chemistry. B, 127(19), 4174-4207. [PubMed:37149781] [WorldCat] [DOI]
Tazi, K.Y., & Rogers, R. (2023).
Falling through the cracks: Failing to identify compromised Miranda abilities for defendants with limited cognitive capacities. Behavioral sciences & the law, 41(5), 326-342. [PubMed:36866414] [WorldCat] [DOI]
Mandalaparthy, V., Bui, P.T., & Noid, W.G. (2022).
The influence of cross-interactions between dilute cosolutes upon liquid interfaces. The Journal of chemical physics, 157(18), 184706. [PubMed:36379786] [WorldCat] [DOI]
Noid, G., Godfrey, G., Hall, W., Shah, J., Paulson, E., Knechtges, P., ..., & Allen Li, X. (2023).
Predicting Treatment Response From Extracellular Volume Fraction for Chemoradiation Therapy of Pancreatic Cancer. International journal of radiation oncology, biology, physics, 115(3), 803-808. [PubMed:36210026] [WorldCat] [DOI]
Mandalaparthy, V., & Noid, W.G. (2022).
A simple theory for interfacial properties of dilute solutions. The Journal of chemical physics, 157(3), 034703. [PubMed:35868931] [WorldCat] [DOI]
Pan, N., Auyeung, B., Wang, X., Lin, L.Z., Li, H.L., Zhan, X.L., ..., & Li, X.H. (2022).
Empathizing, systemizing, empathizing-systemizing difference and their association with autistic traits in children with autism spectrum disorder, with and without intellectual disability. Autism research : official journal of the International Society for Autism Research, 15(7), 1348-1357. [PubMed:35719032] [WorldCat] [DOI]
Majee, R., Parvin, S., Arif Islam, Q., Kumar, A., Debnath, B., Mondal, S., ..., & Bhattacharyya, S. (2022).
The Perfect Imperfections in Electrocatalysts. Chemical record (New York, N.Y.), 22(9), e202200070. [PubMed:35675947] [WorldCat] [DOI]
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Mandalaparthy, V., Bui, P.T., & Noid, W.G. (2022).
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Jin, J., Noid, W.G., Li, J., Kumar, R., Cao, J., Jang, S., ..., & Reichman, D. (2024).
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Noid, W.G., Szukalo, R.J., Kidder, K.M., & Lesniewski, M.C. (2024).
Rigorous Progress in Coarse-Graining. Annual review of physical chemistry, 75(1), 21-45. [PubMed:38941523] [WorldCat] [DOI]
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Synergistic enhancement of CO₂/N₂ separation performance via Ce-MOF-infused chitosan mixed matrix membrane. Environmental science and pollution research international. [PubMed:38561537] [WorldCat] [DOI]
Kidder, K.M., Shell, M.S., & Noid, W.G. (2024).
Surveying the energy landscape of coarse-grained mappings. The Journal of chemical physics, 160(5). [PubMed:38310476] [WorldCat] [DOI]
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Insight into the Density-Dependence of Pair Potentials for Predictive Coarse-Grained Models. The journal of physical chemistry. B, 128(5), 1298-1316. [PubMed:38271676] [WorldCat] [DOI]
Amidon, R.F., Livingston, K., Kleefisch, C.J., Martens, M., Straza, M., Puckett, L., ..., & Bovi, J.A. (2024).
Cystic Brain Metastasis Outcomes After Gamma Knife Radiation Therapy. Advances in radiation oncology, 9(1), 101304. [PubMed:38260234] [PMC] [WorldCat] [DOI]
Laurin, B.J., Straza, M., Noid, G., Connelly, J.M., Mueller, W.M., Bovi, J., & Krucoff, M.O. (2023).
Symptomatic radionecrosis after postoperative but not preoperative stereotactic radiosurgery in a single patient: illustrative case. Journal of neurosurgery. Case lessons, 6(16). [PubMed:37870754] [PMC] [WorldCat] [DOI]
Szukalo, R.J., & Noid, W.G. (2023).
A temperature-dependent length-scale for transferable local density potentials. The Journal of chemical physics, 159(7). [PubMed:37589407] [WorldCat] [DOI]
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Katare, A., Borgohain, R., Prasad, B., & Mandal, B. (2023).
A Strategical Improvement in the Performance of CO₂/N₂ Gas Permeation via Conjugation of L-Tyrosine onto Chitosan Membrane. Membranes, 13(5). [PubMed:37233548] [PMC] [WorldCat] [DOI]
Noid, W.G. (2023).
Perspective: Advances, Challenges, and Insight for Predictive Coarse-Grained Models. The journal of physical chemistry. B, 127(19), 4174-4207. [PubMed:37149781] [WorldCat] [DOI]
Tazi, K.Y., & Rogers, R. (2023).
Falling through the cracks: Failing to identify compromised Miranda abilities for defendants with limited cognitive capacities. Behavioral sciences & the law, 41(5), 326-342. [PubMed:36866414] [WorldCat] [DOI]
Mandalaparthy, V., Bui, P.T., & Noid, W.G. (2022).
The influence of cross-interactions between dilute cosolutes upon liquid interfaces. The Journal of chemical physics, 157(18), 184706. [PubMed:36379786] [WorldCat] [DOI]
Noid, G., Godfrey, G., Hall, W., Shah, J., Paulson, E., Knechtges, P., ..., & Allen Li, X. (2023).
Predicting Treatment Response From Extracellular Volume Fraction for Chemoradiation Therapy of Pancreatic Cancer. International journal of radiation oncology, biology, physics, 115(3), 803-808. [PubMed:36210026] [WorldCat] [DOI]
Mandalaparthy, V., & Noid, W.G. (2022).
A simple theory for interfacial properties of dilute solutions. The Journal of chemical physics, 157(3), 034703. [PubMed:35868931] [WorldCat] [DOI]
Pan, N., Auyeung, B., Wang, X., Lin, L.Z., Li, H.L., Zhan, X.L., ..., & Li, X.H. (2022).
Empathizing, systemizing, empathizing-systemizing difference and their association with autistic traits in children with autism spectrum disorder, with and without intellectual disability. Autism research : official journal of the International Society for Autism Research, 15(7), 1348-1357. [PubMed:35719032] [WorldCat] [DOI]
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The Perfect Imperfections in Electrocatalysts. Chemical record (New York, N.Y.), 22(9), e202200070. [PubMed:35675947] [WorldCat] [DOI]
Beloozerova, I.N., Nilaweera, W.U., Viana Di Prisco, G., & Marlinski, V. (2023).
Signals from posterior parietal area 5 to motor cortex during locomotion. Cerebral cortex (New York, N.Y. : 1991), 33(4), 1014-1043. [PubMed:35383368] [PMC] [WorldCat] [DOI]

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Analysis of mapping atomic models to coarse-grained resolution. The Journal of chemical physics, 161(13). [PubMed:39365018] [WorldCat] [DOI]
Jin, J., Noid, W.G., Li, J., Kumar, R., Cao, J., Jang, S., ..., & Reichman, D. (2024).
A Tribute to Gregory A. Voth. The journal of physical chemistry. B, 128(32), 7703-7706. [PubMed:39143864] [WorldCat] [DOI]
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Surveying the energy landscape of coarse-grained mappings. The Journal of chemical physics, 160(5). [PubMed:38310476] [WorldCat] [DOI]
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Insight into the Density-Dependence of Pair Potentials for Predictive Coarse-Grained Models. The journal of physical chemistry. B, 128(5), 1298-1316. [PubMed:38271676] [WorldCat] [DOI]
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Symptomatic radionecrosis after postoperative but not preoperative stereotactic radiosurgery in a single patient: illustrative case. Journal of neurosurgery. Case lessons, 6(16). [PubMed:37870754] [PMC] [WorldCat] [DOI]
Szukalo, R.J., & Noid, W.G. (2023).
A temperature-dependent length-scale for transferable local density potentials. The Journal of chemical physics, 159(7). [PubMed:37589407] [WorldCat] [DOI]
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Relating the artificial chemotaxis of catalysts to a gradient descent of the free energy. The Journal of chemical physics, 158(21). [PubMed:37265211] [WorldCat] [DOI]
Katare, A., Borgohain, R., Prasad, B., & Mandal, B. (2023).
A Strategical Improvement in the Performance of CO₂/N₂ Gas Permeation via Conjugation of L-Tyrosine onto Chitosan Membrane. Membranes, 13(5). [PubMed:37233548] [PMC] [WorldCat] [DOI]
Noid, W.G. (2023).
Perspective: Advances, Challenges, and Insight for Predictive Coarse-Grained Models. The journal of physical chemistry. B, 127(19), 4174-4207. [PubMed:37149781] [WorldCat] [DOI]
Tazi, K.Y., & Rogers, R. (2023).
Falling through the cracks: Failing to identify compromised Miranda abilities for defendants with limited cognitive capacities. Behavioral sciences & the law, 41(5), 326-342. [PubMed:36866414] [WorldCat] [DOI]
Mandalaparthy, V., Bui, P.T., & Noid, W.G. (2022).
The influence of cross-interactions between dilute cosolutes upon liquid interfaces. The Journal of chemical physics, 157(18), 184706. [PubMed:36379786] [WorldCat] [DOI]
Noid, G., Godfrey, G., Hall, W., Shah, J., Paulson, E., Knechtges, P., ..., & Allen Li, X. (2023).
Predicting Treatment Response From Extracellular Volume Fraction for Chemoradiation Therapy of Pancreatic Cancer. International journal of radiation oncology, biology, physics, 115(3), 803-808. [PubMed:36210026] [WorldCat] [DOI]
Mandalaparthy, V., & Noid, W.G. (2022).
A simple theory for interfacial properties of dilute solutions. The Journal of chemical physics, 157(3), 034703. [PubMed:35868931] [WorldCat] [DOI]
Pan, N., Auyeung, B., Wang, X., Lin, L.Z., Li, H.L., Zhan, X.L., ..., & Li, X.H. (2022).
Empathizing, systemizing, empathizing-systemizing difference and their association with autistic traits in children with autism spectrum disorder, with and without intellectual disability. Autism research : official journal of the International Society for Autism Research, 15(7), 1348-1357. [PubMed:35719032] [WorldCat] [DOI]
Majee, R., Parvin, S., Arif Islam, Q., Kumar, A., Debnath, B., Mondal, S., ..., & Bhattacharyya, S. (2022).
The Perfect Imperfections in Electrocatalysts. Chemical record (New York, N.Y.), 22(9), e202200070. [PubMed:35675947] [WorldCat] [DOI]
Beloozerova, I.N., Nilaweera, W.U., Viana Di Prisco, G., & Marlinski, V. (2023).
Signals from posterior parietal area 5 to motor cortex during locomotion. Cerebral cortex (New York, N.Y. : 1991), 33(4), 1014-1043. [PubMed:35383368] [PMC] [WorldCat] [DOI]

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[Onouchi2014-49] Anbumani, S., Godfrey, G., Hall, W.A., Shah, J., Knechtges, P., Erickson, B., ..., & Noid, G. (2024).
Enhancing pancreatic tumor delineation using dual-energy CT-derived extracellular volume fraction map. Biomedical physics & engineering express, 11(1). [PubMed:39541600] [WorldCat] [DOI]
Kidder, K.M., & Noid, W.G. (2024).
Analysis of mapping atomic models to coarse-grained resolution. The Journal of chemical physics, 161(13). [PubMed:39365018] [WorldCat] [DOI]
Jin, J., Noid, W.G., Li, J., Kumar, R., Cao, J., Jang, S., ..., & Reichman, D. (2024).
A Tribute to Gregory A. Voth. The journal of physical chemistry. B, 128(32), 7703-7706. [PubMed:39143864] [WorldCat] [DOI]
Noid, W.G., Szukalo, R.J., Kidder, K.M., & Lesniewski, M.C. (2024).
Rigorous Progress in Coarse-Graining. Annual review of physical chemistry, 75(1), 21-45. [PubMed:38941523] [WorldCat] [DOI]
Katare, A., Sikha, S., & Mandal, B. (2024).
Synergistic enhancement of CO₂/N₂ separation performance via Ce-MOF-infused chitosan mixed matrix membrane. Environmental science and pollution research international. [PubMed:38561537] [WorldCat] [DOI]
Kidder, K.M., Shell, M.S., & Noid, W.G. (2024).
Surveying the energy landscape of coarse-grained mappings. The Journal of chemical physics, 160(5). [PubMed:38310476] [WorldCat] [DOI]
Lesniewski, M.C., & Noid, W.G. (2024).
Insight into the Density-Dependence of Pair Potentials for Predictive Coarse-Grained Models. The journal of physical chemistry. B, 128(5), 1298-1316. [PubMed:38271676] [WorldCat] [DOI]
Amidon, R.F., Livingston, K., Kleefisch, C.J., Martens, M., Straza, M., Puckett, L., ..., & Bovi, J.A. (2024).
Cystic Brain Metastasis Outcomes After Gamma Knife Radiation Therapy. Advances in radiation oncology, 9(1), 101304. [PubMed:38260234] [PMC] [WorldCat] [DOI]
Laurin, B.J., Straza, M., Noid, G., Connelly, J.M., Mueller, W.M., Bovi, J., & Krucoff, M.O. (2023).
Symptomatic radionecrosis after postoperative but not preoperative stereotactic radiosurgery in a single patient: illustrative case. Journal of neurosurgery. Case lessons, 6(16). [PubMed:37870754] [PMC] [WorldCat] [DOI]
Szukalo, R.J., & Noid, W.G. (2023).
A temperature-dependent length-scale for transferable local density potentials. The Journal of chemical physics, 159(7). [PubMed:37589407] [WorldCat] [DOI]
Krist, K.T., & Noid, W.G. (2023).
Relating the artificial chemotaxis of catalysts to a gradient descent of the free energy. The Journal of chemical physics, 158(21). [PubMed:37265211] [WorldCat] [DOI]
Katare, A., Borgohain, R., Prasad, B., & Mandal, B. (2023).
A Strategical Improvement in the Performance of CO₂/N₂ Gas Permeation via Conjugation of L-Tyrosine onto Chitosan Membrane. Membranes, 13(5). [PubMed:37233548] [PMC] [WorldCat] [DOI]
Noid, W.G. (2023).
Perspective: Advances, Challenges, and Insight for Predictive Coarse-Grained Models. The journal of physical chemistry. B, 127(19), 4174-4207. [PubMed:37149781] [WorldCat] [DOI]
Tazi, K.Y., & Rogers, R. (2023).
Falling through the cracks: Failing to identify compromised Miranda abilities for defendants with limited cognitive capacities. Behavioral sciences & the law, 41(5), 326-342. [PubMed:36866414] [WorldCat] [DOI]
Mandalaparthy, V., Bui, P.T., & Noid, W.G. (2022).
The influence of cross-interactions between dilute cosolutes upon liquid interfaces. The Journal of chemical physics, 157(18), 184706. [PubMed:36379786] [WorldCat] [DOI]
Noid, G., Godfrey, G., Hall, W., Shah, J., Paulson, E., Knechtges, P., ..., & Allen Li, X. (2023).
Predicting Treatment Response From Extracellular Volume Fraction for Chemoradiation Therapy of Pancreatic Cancer. International journal of radiation oncology, biology, physics, 115(3), 803-808. [PubMed:36210026] [WorldCat] [DOI]
Mandalaparthy, V., & Noid, W.G. (2022).
A simple theory for interfacial properties of dilute solutions. The Journal of chemical physics, 157(3), 034703. [PubMed:35868931] [WorldCat] [DOI]
Pan, N., Auyeung, B., Wang, X., Lin, L.Z., Li, H.L., Zhan, X.L., ..., & Li, X.H. (2022).
Empathizing, systemizing, empathizing-systemizing difference and their association with autistic traits in children with autism spectrum disorder, with and without intellectual disability. Autism research : official journal of the International Society for Autism Research, 15(7), 1348-1357. [PubMed:35719032] [WorldCat] [DOI]
Majee, R., Parvin, S., Arif Islam, Q., Kumar, A., Debnath, B., Mondal, S., ..., & Bhattacharyya, S. (2022).
The Perfect Imperfections in Electrocatalysts. Chemical record (New York, N.Y.), 22(9), e202200070. [PubMed:35675947] [WorldCat] [DOI]
Beloozerova, I.N., Nilaweera, W.U., Viana Di Prisco, G., & Marlinski, V. (2023).
Signals from posterior parietal area 5 to motor cortex during locomotion. Cerebral cortex (New York, N.Y. : 1991), 33(4), 1014-1043. [PubMed:35383368] [PMC] [WorldCat] [DOI]

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