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  1. 1.   Essential functions of inositol hexakisphosphate (IP6) in murine leukemia virus replication
  2. Biswas, Banhi; Lai,Kin Kui; Bracey, Harrison; Datta,Siddhartha; Harvin, Demetria; Sowd, Gregory A; Aiken, Christopher; Rein,Alan
  3. mBio. 2024, Jul 17; 15(7): e0115824.
  1. 2.   Specificity of the HIV-1 Protease on Substrates Representing the Cleavage Site in the Proximal Zinc-Finger of HIV-1 Nucleocapsid Protein
  2. Motyan, Janos Andras; Miczi, Mario; Oroszlan, Stephen; Tozser, Jozsef
  3. Viruses. 2021, Jun; 13(6):
  1. 3.   Ancient Adversary - HERV-K (HML-2) in Cancer
  2. Dervan, Eoin; Bhattacharyya,Dana; McAuliffe, Jake D.; Khan, Faizan H.; Glynn, Sharon A.
  3. Frontiers in oncology. 2021, May 13; 11
  1. 4.   Across the Hall from Pioneers
  2. Rein,Alan
  3. Viruses . 2021, Mar; 13(3):
  1. 5.   Specific Guanosines in the HIV-2 Leader RNA Are Essential for Efficient Viral GenomePackaging
  2. Umunnakwe, Chijioke N; Duchon,Alice; Nikolaitchik,Olga; Abdul Rahman, Sheikh; Liu, Yang; Chen,Jianbo; Tai, Sheldon; Pathak,Vinay; Hu,Wei-Shau
  3. Journal of Molecular Biology. 2021, Jan 22; 433(2): pii: S0022-2836(20)30637-9.
  1. 6.   IFITM3 Reduces Retroviral Envelope Abundance and Function and Is Counteracted by glycoGag
  2. Ahi, Yadvinder S; Yimer, Diborah; Shi,Scarlett; Majdoul,Saliha; Rahman,Kazi; Rein,Alan; Compton,Alex
  3. mBio. 2020, Jan 21; 11(1):
  1. 7.   Identification of a homogenous structural basis for oligomerization by retroviral Rev-like proteins
  2. Umunnakwe, Cj; Dorman, Karin S; Dobbs, Drena; Carpenter, Susan
  3. Retrovirology. 2017, Aug 22; 14(1): 40.
  1. 8.   Characterization, Mapping, and Distribution of the Two XMRV Parental Proviruses
  2. Cingoz, O.; Paprotka, T.; Delviks-Frankenberry, K. A.; Wildt, S.; Hu, W. S.; Pathak, V. K.; Coffin, J. M.
  3. Journal of Virology. 2012, Jan; 86(1): 328-338.
  1. 9.   The Role of Lipids in Retrovirus Replication
  2. Waheed, A. A.; Freed, E. O.
  3. Viruses-Basel. 2010, May; 2(5): 1146-1180.
  1. 10.   Nucleic acid chaperone activity of retroviral Gag proteins
  2. Rein, A.
  3. Rna Biology. 2010, Nov-Dec; 7(6): 700-705.
  1. 11.   Cloaked virus slips between cells
  2. Jones, K. S.; Green, P. L.
  3. Nature Medicine. 2010, Jan; 16(1): 25-27.
  1. 12.   Revisiting Plus-Strand DNA Synthesis in Retroviruses and Long Terminal Repeat Retrotransposons: Dynamics of Enzyme: Substrate Interactions
  2. Fabris, D.; Marino, J. P.; Le Grice, S. F. J.
  3. Viruses-Basel. 2009, Dec; 1(3): 657-677.
  1. 13.   Unsung Hero Robert C. Gallo
  2. Abbadessa, G.; Accolla, R.; Aiuti, F.; Albini, A.; Aldovini, A.; Alfano, M.; Antonelli, G.; Bartholomew, C.; Bentwich, Z.; Bertazzoni, U.; Berzofsky, J. A.; Biberfeld, P.; Boeri, E.; Buonaguro, L.; Buonaguro, F. M.; Bukrinsky, M.; Burny, A.
  3. Science. 2009 323(5911): 206-207.
  1. 14.   Interactions of murine APOBEC3 and human APOBEC3G with murine leukemia viruses
  2. Rulli, S. J.; Mirro, J.; Hill, S. A.; Lloyd, P.; Gorelick, R. J.; Coffin, J. M.; Derse, D.; Rein, A.
  3. Journal of Virology. 2008 82(13): 6566-6575.
  1. 15.   Capsid is an important determinant for functional complementation of murine leukemia virus and spleen necrosis virus Gag proteins
  2. Lee, S. K.; Boyko, V.; Hu, W. S.
  3. Virology. 2007, Apr; 360(2): 388-397.
  1. 16.   Distribution and three-dimensional structure of AIDS virus envelope spikes
  2. Zhu, P.; Liu, J.; Bess, J.; Chertova, E.; Lifson, J. D.; Grise, H.; Ofek, G. A.; Taylor, K. A.; Roux, K. H.
  3. Nature. 2006, JUN 15; 441(7095): 847-852.
  1. 17.   Evolution of a cytoplasmic tripartite motif (TRIM) protein in cows that restricts retroviral infection
  2. Si, Z. H.; Vandegraaff, N.; O'HUigin, C.; Song, B.; Yuan, W.; Xu, C.; Perron, M.; Li, X.; Marasco, W. A.; Engelman, A.; Dean, M.; Sodroski, J.
  3. Proceedings of the National Academy of Sciences of the United States of America. 2006, MAY 9; 103(19): 7454-7459.
  1. 18.   Intracellular restriction factors in mammalian cells - An ancient defense system finds a modern foe
  2. Baumann, J. G.
  3. Current HIV Research. 2006, Apr; 4(2): 141-168.
  1. 19.   Mutant murine leukemia virus Gag proteins lacking proline at the N-terminus of the capsid domain block infectivity in virions containing wild-type Gag
  2. Rulli, S. J.; Muriaux, D.; Nagashima, K.; Mirro, J.; Oshima, M.; Baumann, J. G.; Rein, A.
  3. Virology. 2006, Apr; 347(2): 364-371.
  1. 20.   Molecular replacement with pseudosymmetry and model dissimilarity: a case study
  2. Jaskolski, M.; Li, M.; Laco, G.; Gustchina, A.; Wlodawer, A.
  3. Acta Crystallographica Section D-Biological Crystallography. 2006, FEB; 62(Part 2): 208-215.
  1. 21.   Effects of Gag mutation and processing on retroviral dimeric RNA maturation
  2. Fu, W.; Dang, Q.; Nagashima, K.; Freed, E. O.; Pathak, V. K.; Hu, W. S.
  3. Journal of Virology. 2006, FEB; 80(3): 1242-1249.
  1. 22.   Mutations in the U5 sequences adjacent to the primer binding site do not affect tRNA cleavage by Rous sarcoma virus RNase H but do cause aberrant integrations in vivo
  2. Oh, J.; Chang, K. W.; Hughes, S. H.
  3. Journal of Virology. 2006, JAN; 80(1): 451-459.
  1. 23.   Insertional mutagenesis identifies genes that promote the immortalization of primary bone marrow progenitor cells
  2. Du, Y.; Jenkins, N. A.; Copeland, N. G.
  3. Blood. 2005, DEC 1; 106(12): 3932-3939.
  1. 24.   Redundant roles for nucleocapsid and matrix RNA-binding sequences in human immunodeficiency virus type 1 assembly
  2. Ott, D. E.; Coren, L. V.; Gagliardi, T. D.
  3. Journal of Virology. 2005, NOV; 79(22): 13839-13847.
  1. 25.   Simian immunodeficiency virus integration preference is similar to that of human immunodeficiency virus type 1
  2. Crise, B.; Li, Y.; Yuan, C. C.; Morcock, D. R.; Whitby, D.; Munroe, D. J.; Arthur, L. O.; Wu, X. L.
  3. Journal of Virology. 2005, OCT; 79(19): 12199-12204.
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