NE-INBRE学者计划

什么是INBRE?
INBRE (IDeA Network of Biomedical Research Excellence) is a project supported by the National Institute of Health (IDeA is from Institutional Development Award). The primary focus of INBRE is to enhance the competitiveness of biomedical research in Nebraska by supporting the training of students and the research efforts of faculty.

谁牵涉其中??
The grant is housed at the 内布拉斯加大学医学中心. 有三个Ph值.D. training campuses: 内布拉斯加大学林肯分校, 内布拉斯加大学医学中心, 克莱顿大学 Medical Center.

在实验室工作的学生生物学 and 化学 are currently the only departments at 体育菠菜大平台 that provide an opportunity to be in this scholar program.

Other 本科 institutions are: 内布拉斯加大学 at Omaha (生物学), 韦恩州立大学, 多恩大学, 克莱顿大学, 查德隆州立大学, 内布拉斯加大学林肯分校, 圣玛丽学院, 内布拉斯加州卫斯理大学.

Learn more about NE-INBRE via the UNMC website

INBRE好处
Financial support is provided for these undergraduates throughout their tenure as INBRE Scholars. 学生 are also given opportunities to attend national meetings and conferences. With the end result of the scholars program being to recruit students to graduate programs at Ph.D. 授予机构. Once a scholar has been admitted to a Ph.D. program, the INBRE project will provide support for the first year of graduate studies.

INBRE支持体育菠菜大平台的教师:

INBRE 2017照片

金伯利卡尔森: carlsonka1@joyerianicaragua.com
克里斯蒂Kounovsky-Shafer: kounovskykl@joyerianicaragua.com
奥斯汀纳克叟: nuxollas@joyerianicaragua.com
乔·Dolence: dolencejj@joyerianicaragua.com
迈克莫克斯利: moxleyma@joyerianicaragua.com
翼鹏隋: suiy@joyerianicaragua.com

For more information about the program, feel free to contact Dr. 金伯利卡尔森.

Download the 2024 体育菠菜大平台 INBRE (BRIN) APPLICATION

体育菠菜大平台 INBRE (BRIN)学者

2023	2022	2021
Sunayn Cheku 玛丽莎·胡佛 Naara拉米雷斯美女机器人挪亚沙克尔福德	玛丽亚姆·埃斯科瓦尔·加西亚忘却不能亨德森埃斯梅拉达Mendez-Ortiz	内森Fancher 莎拉·钱德勒查尔斯标注
2020	2019	2018
乔·基尔山姆·默瑟	Josh Lindenberger 悉尼喋喋不休地说萨曼莎劳 Wuilian马丁内斯	阿曼达Macke 贾斯汀的比萨摩根李
2017	2016	2015
莫莉Kohlbek Makayla她卡门立克	Aatiya艾哈迈德基冈麦吉尔科迪大师	内特危害亚历克西斯页面道森约翰逊
2013	2012	2011
外祖母沃伦 Shanice哈里斯 Loany法	蒂亚哈德利德里克Kleier	本白 Jaicee帖子米歇尔拉伸
2010	2009	2008
安德鲁Prososki 特拉维斯基什内尔杰夫·肖	布兰登Mizner] 玛塞尔Strydom	贝基Fusby 安德鲁块凯蒂Langenfeld
2007	2006	2005
克里斯汀针梳奥斯汀纳克叟罗伯特- Daro	Kylee加德纳阿什利·史迪威将军	约瑟夫已经玛丽Connealy 莎拉•马歇尔 Anjeza Pashaj
2004	2003	2002
林赛维维安迈克尔•克林科里·西科尼	凯瑰柏翠科尔Spressor Karynn库希拉	梅丽莎Fladseth 丽莎·沃尔特斯雷蒙德Baillou

Resulting scholar publications in refereed journals (* designates scholar)

Rokusek B.S.， Cheku, S.*， Rokusek, M.韦普斯，C.J.哈什曼，L., 卡尔森,K.A. HoTDAM! An easy-to-use automated assay expands the inducible thermotolerance phenotype in 黑腹果蝇: 热硬化降低运动性. Comparative Biochemistry and Physiology Part A: Molecular and Integrative Physiology 286:111522, 2023. http://doi.org/10.1016/j.cbpa.2023.111522
M . Schissel (Nemecek.*， Best, R.利斯迈耶，S.， Tan, Y-D.卡尔森，D.J.谢弗，J.J.阿武图，N.古达，C.卡尔森，K.A. Effect of Nora virus infection on native gut bacterial communities of 黑腹果蝇. 微生物学通报，2011 (2):1 - 6.
Macke,.*，洛佩兹，W.卡尔森，D.J.卡尔森，K.A. Nora virus VP4b and ORF1 circulate in hemolymph of infected D. melanogaster with coordinate expression of vago and vir-1. 疫苗8(3)，2020.
埃维里特,K.R.Schmitz, H.C.，马克?.*， Shan, J.张，E.吕德克，B.卡尔森，K.A.，曹，H. Investigation of a sensing strategy based on a nucleophilic addition reaction for quantitative detection of bisulfite (HSO3-). 荧光学报 30: 977-983, 2020.
萨利姆,米.，渗透，Z.孔特雷拉斯，J.林登伯格，J.*， Hupp, B.陈，D。.张，Q.，王，C.伊克巴尔，J.特威格，P. Cover crop diversity improves multiple soil properties via altering root architectural traits. 根际,2020. http://doi.org/10.1016/j.rhisph.2020.100248
Houtwed H.A.谢，M. 艾哈迈德,.大师，C.D.*，戴维森，M.M., Kounovsky-Shafer K.，曹，H. Analysis of bisulfite via a nitro derivative of cyanine-3 (NCy3) in the microfluidic channel. 荧光学报 29: 523-529, 2019.
主人,C.海豚，J.马希曼，A.麦吉尔，K.摩尔，M.汤普森，D., 和Kounovsky-Shafer K.L.. Development of 3D printed mesofluidic devices to elute and concentrate DNA. 电泳40:810-816,2019.
Maschmann,.大师，C.*，戴维森，M., L奥尔曼J.汤普森，D., Kounovsky-Shafer, K.L. Determining if DNA stained with a dye from the TOTO-1 family can be digested with restriction enzymes. 木星132,2018.
Wilfredo L.A页.M.*，卡尔森，D.J.埃里克森，B.L.塞哈蒂，M.F.古达，C.卡尔森，K.A. Analysis of immune-related genes during nora virus infection of 黑腹果蝇 使用下一代测序. 中国微生物学杂志，4(1):123-139. 2018.
Kim, Gunwoo张，EunjuA页lexis M.*，丁，丁，卡尔森，金伯利.曹海石. Investigation of a sensing approach based on a rapid reduction of azide to selectively measure bioavailability of H₂S. RSC副词. 6:95920-95924, 2016.
金伯利·卡尔森., Gardner, Kylee*, Pashaj, Anjeza*, 达比·卡尔森.， Yu, F.，朱迪，吉姆·D.，张，C.哈什曼，拉里·G. Genome-wide gene expression in relation to age in large laboratory cohorts of 黑腹果蝇. 麝猫ics Research International Epub May 21, 2015.
吉林，克里斯汀·E.*和卡尔森，金伯利A. 的影响 OTK18 upregulation in U937 cells on neuronal survival. In Vitro Cell Dev Biol Anim 45(5-6): 243-51, 2009.
达比·卡尔森., Pashaj, Anjeza*, Gardner, Kylee*和卡尔森，金伯利A. 在古老的问题上取得进展. 昆虫学报(2):149-151,2008.
Larson, Stephanie, 吉林，克里斯汀·E.*和卡尔森，金伯利A. A proposed mechanism for OTK18 regulation of TNF-α in response to neurotoxic insult. J Biol, Biol Syst, Bioinform 2(1), 2008.
presser, Cole R.马歇尔，萨拉·E.*，卡尔森，金伯利. OTK18: A transcriptional suppressor and putative anti-retroviral molecule with a potential role in regulation of innate immunity. 中国生物医学工程学报(英文版)37 (2):444 - 444.
珍妮特·斯蒂尔.库塞拉，卡琳·E.*， Ciccone, Cory A.*，康纳利，玛丽E.* Exercise and diabetes influence antioxidant activity and gene expression in female rats. 科学通报，2008,31 (1):51-60.
沃格尔J.，顾，Y.特威格，P.，拉佐，G.laudencia - chingcuco, D.海登，D. M.， Donze, T. J.维维安，L. A.*， Stamova B.，科尔曼-德D. EST sequencing and phylogenetic analysis of the model grass Brachypodium distachyon. 理论的. :. 麝猫. 113: 186-195, 2006.
presser, Cole R.*，卡尔森，金伯利. 利用 黑腹果蝇 用于HIV-1感染的研究. 中国生物医学工程学报，32 (2):559 - 559.