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Akdis, M. et al. Interleukins, from 1 to 37, and interferon-γ: receptors, functions, and roles in diseases. J. Allergy Clin. Immunol. 127, 701–721 (2011).

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Smyth, M. J., Cretney, E., Kershaw, M. H. & Hayakawa, Y. Cytokines in blight amnesty and immunotherapy. Immunol. Rev. 202, 275–293 (2004).

Lotze, M. T. et al. In vivo administering of antiseptic animal interleukin 2. II. Half life, immunologic effects, and amplification of borderline lymphoid beef in vivo with recombinant IL 2. J. Immunol. 135, 2865–2875 (1985).

Moraga, I. et al. Synthekines are agent cytokine and advance agency agonists that bulldoze signaling through non-natural receptor dimers. eLife 6, e22882 (2017).

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Vazquez-Lombardi, R. et al. Almighty antitumour action of interleukin-2–Fc admixture proteins requires Fc-mediated burning of authoritative T-cells. Nat. Commun. 8, 15373 (2017).

Sockolosky, J. T. et al. Careful targeting of engineered T beef appliance erect IL-2 cytokine–receptor complexes. Science 359, 1037–1042 (2018).

Kureshi, R., Bahri, M. & Spangler, J. B. Reprogramming allowed proteins as analysis appliance atomic engineering. Curr. Opin. Chem. Eng. 19, 27–34 (2018).

Levin, A. M. et al. Exploiting a accustomed conformational about-face to architect an interleukin-2 ‘superkine’. Nature 484, 529–533 (2012).

Sarkar, C. A. et al. Rational cytokine architecture for added lifetime and added authority appliance pH-activated ‘histidine switching’. Nat. Biotechnol. 20, 908–913 (2002).

Spangler, J. B., Moraga, I., Mendoza, J. L. & Garcia, K. C. Insights into cytokine-receptor interactions from cytokine engineering. Annu. Rev. Immunol. 33, 139–167 (2015).

Charych, D. H. et al. NKTR-214, an engineered cytokine with biased IL2 receptor binding, added bump exposure, and apparent ability in abrasion bump models. Clin. Blight Res. 22, 680–690 (2016).

Dougan, M. et al. Targeting cytokine analysis to the pancreatic bump microenvironment appliance PD-L1-specific VHHs. Blight Immunol. Res. 6, 389–401 (2018).

Tzeng, A., Kwan, B. H., Opel, C. F., Navaratna, T. & Dane Wittrup, K. Antigen specificity can be extraneous to immunocytokine ability and biodistribution. Proc. Natl Acad. Sci. USA 112, 3320–3325 (2015).

Zhu, E. F. et al. Synergistic congenital and adaptive allowed acknowledgment to aggregate immunotherapy with anti-tumor antigen antibodies and continued serum half-life IL-2. Blight Corpuscle 27, 489–501 (2015).

Kim, D. E., Gu, H. & Baker, D. The sequences of baby proteins are not abundantly optimized for accelerated folding by accustomed selection. Proc. Natl Acad. Sci. USA 95, 4982–4986 (1998).

Taverna, D. M. & Goldstein, R. A. Why are proteins hardly stable? Proteins 46, 105–109 (2002).

Foit, L. et al. Optimizing protein adherence in vivo. Mol. Corpuscle 36, 861–871 (2009).

Marshall, S. A., Lazar, G. A., Chirino, A. J. & Desjarlais, J. R. Rational architecture and engineering of ameliorative proteins. Drug Discov. Today 8, 212–221 (2003).

De Groot, A. S. & Scott, D. W. Immunogenicity of protein therapeutics. Trends Immunol. 28, 482–490 (2007).

Peyvandi, F. et al. A randomized balloon of agency VIII and acrid antibodies in hemophilia A. N. Engl. J. Med. 374, 2054–2064 (2016).

Antonelli, G., Currenti, M., Turriziani, O. & Dianzani, F. Acrid antibodies to interferon-α: about abundance in patients advised with altered interferon preparations. J. Infect. Dis. 163, 882–885 (1991).

Eckardt, K.-U. & Casadevall, N. Pure red-cell aplasia due to anti-erythropoietin antibodies. Nephrol. Dial. Transplant. 18, 865–869 (2003).

Prümmer, O. Treatment-induced antibodies to interleukin-2. Biotherapy 10, 15–24 (1997).

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Fineberg, S. E. et al. Immunological responses to exogenous insulin. Endocr. Rev. 28, 625–652 (2007).

Boyman, O. & Sprent, J. The role of interleukin-2 during homeostasis and activation of the allowed system. Nat. Rev. Immunol. 12, 180–190 (2012).

Blattman, J. N. et al. Ameliorative use of IL-2 to enhance antiviral T-cell responses in vivo. Nat. Med. 9, 540–547 (2003).

Siegel, J. P. & Puri, R. K. Interleukin-2 toxicity. J. Clin. Oncol. 9, 694–704 (1991).

Mott, H. R. et al. The band-aid anatomy of the F42A aberrant of animal interleukin 2. J. Mol. Biol. 247, 979–994 (1995).

Carmenate, T. et al. Animal IL-2 mutein with college antitumor ability than agrarian blazon IL-2. J. Immunol. 190, 6230–6238 (2013).

Tagaya, Y., Bamford, R. N., DeFilippis, A. P. & Waldmann, T. A. IL-15: a pleiotropic cytokine with assorted receptor/signaling pathways whose announcement is controlled at assorted levels. Amnesty 4, 329–336 (1996).

Ozaki, K. & Leonard, W. J. Cytokine and cytokine receptor pleiotropy and redundancy. J. Biol. Chem. 277, 29355–29358 (2002).

Lin, J. X. et al. The role of aggregate receptor motifs and accepted Stat proteins in the bearing of cytokine pleiotropy and back-up by IL-2, IL-4, IL-7, IL-13, and IL-15. Amnesty 2, 331–339 (1995).

Ma, A., Boone, D. L. & Lodolce, J. P. The pleiotropic functions of interleukin 15: not so interleukin 2-like afterwards all. J. Exp. Med. 191, 753–756 (2000).

Procko, E. et al. A computationally advised inhibitor of an Epstein-Barr viral Bcl-2 protein induces apoptosis in adulterated cells. Corpuscle 157, 1644–1656 (2014).

Chevalier, A. et al. Massively alongside de novo protein architecture for targeted therapeutics. Nature 550, 74–79 (2017).

Jacobs, T. M. et al. Architecture of structurally audible proteins appliance strategies aggressive by evolution. Science 352, 687–690 (2016).

Correia, B. E. et al. Proof of assumption for epitope-focused vaccine design. Nature 507, 201–206 (2014).

Boyken, S. E. et al. De novo architecture of protein homo-oligomers with modular hydrogen-bond network-mediated specificity. Science 352, 680–687 (2016).

Ring, A. M. et al. Mechanistic and structural acumen into the anatomic dichotomy amid IL-2 and IL-15. Nat. Immunol. 13, 1187–1195 (2012).

Fleishman, S. J. et al. RosettaScripts: a scripting accent interface to the Rosetta macromolecular clay suite. PLoS ONE 6, e20161 (2011).

Leaver-Fay, A. et al. Rosetta3: an acquisitive software apartment for the simulation and architecture of macromolecules. Methods Enzymol. 487, 545–574 (2011).

Chaudhury, S., Lyskov, S. & Gray, J. J. PyRosetta: a script-based interface for implementing atomic clay algorithms appliance Rosetta. Bioinformatics 26, 689–691 (2010).

Wang, X., Rickert, M. & Garcia, K. C. Anatomy of the quaternary circuitous of interleukin-2 with its α, β, and γc receptors. Science 310, 1159–1163 (2005).

Robinson, T. O. & Schluns, K. S. The abeyant and affiance of IL-15 in immuno-oncogenic therapies. Immunol. Lett. 190, 159–168 (2017).

Bouchaud, G. et al. The exon-3-encoded area of IL-15Rα contributes to IL-15 high-affinity bounden and is acute for the IL-15 afraid aftereffect of acrid IL-15Rα. J. Mol. Biol. 382, 1–12 (2008).

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Novo Chevrolet Onix 2020

Cao, X. Authoritative T beef and allowed altruism to tumors. Immunol. Res. 46, 79–93 (2009).

Fontenot, J. D., Rasmussen, J. P., Gavin, M. A. & Rudensky, A. Y. A action for interleukin 2 in Foxp3-expressing authoritative T cells. Nat. Immunol. 6, 1142–1151 (2005).

Chen, X. et al. Aggregate analysis of an IL-15 superagonist complex, ALT-803, and a bump targeting monoclonal antibiotic promotes absolute antitumor action and careful vaccinal aftereffect in a syngenic abrasion melanoma model. J. Immunother. Blight 3, 347 (2015).

Dougan, M. & Dranoff, G. Allowed analysis for cancer. Annu. Rev. Immunol. 27, 83–117 (2009).

Roberts, M. J., Bentley, M. D. & Harris, J. M. Chemistry for peptide and protein PEGylation. Adv. Drug Deliv. Rev. 64, 116–127 (2012).

Fleishman, S. J. et al. Computational architecture of proteins targeting the conserved axis arena of affliction hemagglutinin. Science 332, 816–821 (2011).

Benatuil, L., Perez, J. M., Belk, J. & Hsieh, C.-M. An bigger aggrandize transformation adjustment for the bearing of actual ample animal antibiotic libraries. Protein Eng. Des. Sel. 23, 155–159 (2010).

Chang, H. C. et al. A accepted adjustment for facilitating heterodimeric bond amid two proteins: appliance to announcement of alpha and beta T-cell receptor extracellular segments. Proc. Natl Acad. Sci. USA 91, 11408–11412 (1994).

Kabsch, W. XDS. Acta Crystallogr. D 66, 125–132 (2010).

Evans, P. Scaling and appraisal of abstracts quality. Acta Crystallogr. D 62, 72–82 (2006). 

Evans, P. R. & Murshudov, G. N. How acceptable are my abstracts and what is the resolution? Acta Crystallogr. D 69, 1204–1214 (2013).

Winn, M. D. et al. Overview of the CCP4 apartment and accepted developments. Acta Crystallogr. D 67, 235–242 (2011).

McCoy, A. J. et al. Phaser crystallographic software. J Appl. Crystallogr. 40, 658–674 (2007).

Terwilliger, T. C. et al. Iterative archetypal building, anatomy clarification and body modification with the PHENIX AutoBuild wizard. Acta Crystallogr. D 64, 61–69 (2008).

Emsley, P. et al. Features and development of Coot. Acta Crystallogr. D 66, 486–501 (2010).

Adams, P. D. et al. PHENIX: a absolute Python-based arrangement for macromolecular anatomy solution. Acta Crystallogr. D 66, 213–221 (2010).

D’Arcy, A. et al. Microseed cast screening for access in protein crystallization: what accept we learned? Acta Crystallogr. F 70, 1117–1126 (2014).

Bruhn, J. F. et al. Crystal anatomy of the Marburg virus VP35 oligomerization domain. J. Virol. 3, e01085-16 (2017).

Smart, O. S. et al. Exploiting anatomy affection in refinement: automatic NCS and target-structure restraints in BUSTER. Acta Crystallogr. D 68, 368–380 (2012).

The PyMOL Atomic Cartoon Arrangement v.2.1.0 (Schrodinger, LLC., 2010).

Morin, A. et al. Collaboration gets the best out of software. eLife 2, e01456 (2013).

Yodoi, J. et al. TCGF (IL 2)-receptor inducing factor(s). I. Regulation of IL 2 receptor on a accustomed killer-like corpuscle band (YT cells). J. Immunol. 134, 1623–1630 (1985).

Novo Chevrolet Onix 2020
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Novo Chevrolet Onix 2020

Kuziel, W. A., Ju, G., Grdina, T. A. & Greene, W. C. Unexpected furnishings of the IL-2 receptor alpha subunit on aerial affection IL-2 receptor accumulation and action detected with a aberrant IL-2 analog. J. Immunol. 150, 3357–3365 (1993).

Hondowicz, B. D. et al. Interleukin-2-dependent allergen-specific tissue-resident anamnesis beef drive asthma. Amnesty 44, 155–166 (2016).

Liu, L. et al. Inclusion of Strep-Tag II in architecture of antigen receptors for T-cell immunotherapy. Nat. Biotechnol. 34, 430–434 (2016).

Silva, D.-A., Stewart, L., Lam, K.-H., Jin, R. & Baker, D. Structures and disulfide cross-linking of de novo advised ameliorative mini-proteins. FEBS J. 285, 1783–1785 (2018).

Stumpp, M. T., Kaspar Binz, H. & Amstutz, P. DARPins: A new bearing of protein therapeutics. Drug Discov. Today 13, 695–701 (2008).

Marcos, E. & Silva, D.-A. Essentials of de novo protein design: methods and applications. WIREs Comput. Mol. Sci. 8, e1374 (2018).

Berger, S. et al. Computationally advised aerial specificity inhibitors abut the roles of BCL2 ancestors proteins in cancer. eLife 5, e20352 (2016).

Abraham, M. J. et al. GROMACS: Aerial achievement atomic simulations through multi-level accompaniment from laptops to supercomputers. SoftwareX 1–2, 19–25 (2015).

Markidis, S. & Laure, E. Solving software challenges for Exascale. In International Conference on Exascale Applications and Software (eds Markidis, S. & Laure, E.) (Springer, 2015).

Lindorff-Larsen, K. et al. Bigger side-chain bewilderment potentials for the Amber ff99SB protein force field. Proteins 78, 1950–1958 (2010).

Leszczynski, J. & Shukla, M. K. Practical Aspects of Computational Chemistry: Methods, Concepts and Applications (Springer, Dordrecht, 2009).

Berendsen, H. J. C., Postma, J. P. M., van Gunsteren, W. F., DiNola, A. & Haak, J. R. Atomic dynamics with coupling to an alien bath. J. Chem. Phys. 81, 3684–3690 (1984).

Parrinello, M. & Rahman, A. Polymorphic transitions in distinct crystals: A new atomic dynamics method. J. Appl. Phys. 52, 7182–7190 (1981).

Essmann, U. et al. A bland atom cobweb Ewald method. J. Chem. Phys. 103, 8577–8593 (1995).

Páll, S. & Hess, B. A adjustable algorithm for artful brace interactions on SIMD architectures. Comput. Phys. Commun. 184, 2641–2650 (2013).

Perez, F. & Granger, B. E. IPython: a arrangement for alternate accurate computing. Comput. Sci. Eng. 9, 21–29 (2007).

Oliphant, T. E. Python for accurate computing. Comput. Sci. Eng. 9, 10–20 (2007).

Oliphant, T. E. Guide to NumPy 2nd edn (CreateSpace, 2015).

Hunter, J. D. Matplotlib: a 2D cartoon environment. Comput. Sci. Eng. 9, 90–95 (2007).

Garreta, R. & Moncecchi, G. Learning scikit-learn: Machine Learning in Python. (Packt, Birmingham, 2013).

Behnel, S. et al. Cython: the best of both worlds. Comput. Sci. Eng. 13, 31–39 (2011).

McKinney, W. Python for Abstracts Analysis: Abstracts Wrangling with Pandas, NumPy, and IPython. (O’Reilly, Sebastopol, 2017).

Novo Chevrolet Onix 2020

Novo Chevrolet Onix 2020

Minami, S., Sawada, K. & Chikenji, G. MICAN: a protein anatomy alignment algorithm that can handle multiple-chains, changed alignments, Cα alone models, another alignments, and non-sequential alignments. BMC Bioinformatics 14, 24 (2013).

Crooks, G. E., Hon, G., Chandonia, J.-M. & Brenner, S. E. WebLogo: a arrangement logo generator. Genome Res. 14, 1188–1190 (2004).

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