Citations Report
Pharmaceutical Bioprocessing : Citations & Metrics Report
Articles published in Pharmaceutical Bioprocessing have been cited by esteemed scholars and scientists all around the world.
Pharmaceutical Bioprocessing has got h-index 25, which means every article in Pharmaceutical Bioprocessing has got 25 average citations.
Following are the list of articles that have cited the articles published in Pharmaceutical Bioprocessing.
2021 | 2020 | 2019 | 2018 | 2017 | 2016 | |
---|---|---|---|---|---|---|
Year wise published articles |
31 | 7 | 5 | 23 | 10 | 17 |
Year wise citations received |
271 | 188 | 163 | 177 | 175 | 146 |
Journal total citations count | 1649 |
Journal impact factor | 9.31372549 |
Journal 5 years impact factor | 11.9418604 |
Journal cite score | 13.3492063 |
Journal h-index | 25 |
Journal h-index since 2018 | 20 |
Journal Impact Factor 2020 formula |
IF= Citations(y)/{Publications(y-1)+ Publications(y-2)} Y= Year |
Journal 5-year Impact Factor 2020 formula |
Citations(2016 + 2017 + 2018 + 2019 + 2020)/ {Published articles(2016 + 2017 + 2018 + 2019 + 2020)} |
Journal citescore |
Citescorey = Citationsy + Citationsy-1 + Citationsy-2 + Citations y-3 / Published articlesy + Published articlesy-1 + Published articlesy-2 + Published articles y-3 |
- Barragán-Ocaña, A., Silva-Borjas, P., Olmos-Peña, S., & Polanco-Olguín, M. (2020). Biotechnology and bioprocesses: Their contribution to sustainability. Processes, 8(4), 436. View at Publisher | View at Google Scholar | View at Indexing
- Whitford, W. G. (2014). Single-use systems support continuous bioprocessing by perfusion culture. Continuous processing in pharmaceutical manufacturing, 183-226. View at Publisher | View at Google Scholar | View at Indexing
- Yehl, C. J., & Zydney, A. L. (2021). High Performance Countercurrent Membrane Purification for protein separations. Journal of Membrane Science, 633, 119396. View at Publisher | View at Google Scholar | View at Indexing
- Zargar, A., Quan, D. N., Emamian, M., Tsao, C. Y., Wu, H. C., Virgile, C. R., & Bentley, W. E. (2015). Rational design of ‘controller cells’ to manipulate protein and phenotype expression. Metabolic engineering, 30, 61-68. View at Publisher | View at Google Scholar | View at Indexing
- Luo, X., Wu, H. C., Betz, J., Rubloff, G. W., & Bentley, W. E. (2014). Air bubble-initiated biofabrication of freestanding, semi-permeable biopolymer membranes in PDMS microfluidics. Biochemical engineering journal, 89, 2-9. View at Publisher | View at Google Scholar | View at Indexing
- Zargar, A., Quan, D. N., & Bentley, W. E. (2016). Enhancing intercellular coordination: rewiring quorum sensing networks for increased protein expression through autonomous induction. ACS synthetic biology, 5(9), 923-928. View at Publisher | View at Google Scholar | View at Indexing
- Zargar, A., Payne, G. F., & Bentley, W. E. (2015). A ‘bioproduction breadboard’: programming, assembling, and actuating cellular networks. Current opinion in biotechnology, 36, 154-160. View at Publisher | View at Google Scholar | View at Indexing
- Zargar, A., Quan, D. N., Abutaleb, N., Choi, E., Terrell, J. L., Payne, G. F., & Bentley, W. E. (2017). Constructing “quantized quorums” to guide emergent phenotypes through quorum quenching capsules. Biotechnology and bioengineering, 114(2), 407-415. View at Publisher | View at Google Scholar | View at Indexing
- Zargar, A. (2015). Investigations in interkingdom signaling and control of quorum sensing dependent phenotypes (Doctoral dissertation, University of Maryland, College Park). View at Publisher | View at Google Scholar | View at Indexing
- Denard, C. A., Ren, H., & Zhao, H. (2015). Improving and repurposing biocatalysts via directed evolution. Current opinion in chemical biology, 25, 55-64. View at Publisher | View at Google Scholar | View at Indexing
- Li, G., Wang, J. B., & Reetz, M. T. (2018). Biocatalysts for the pharmaceutical industry created by structure-guided directed evolution of stereoselective enzymes. Bioorganic & medicinal chemistry, 26(7), 1241-1251. View at Publisher | View at Google Scholar | View at Indexing
- Li, A., Acevedo?Rocha, C. G., Sun, Z., Cox, T., Xu, J. L., & Reetz, M. T. (2018). Beating Bias in the Directed Evolution of Proteins: Combining High?Fidelity on?Chip Solid?Phase Gene Synthesis with Efficient Gene Assembly for Combinatorial Library Construction. ChemBioChem, 19(3), 221-228. View at Publisher | View at Google Scholar | View at Indexing
- Joseph, G., Zhang, B., Mahzabin Rahman, Q., Wang, L., & Shahbazi, A. (2019). Two-stage thermophilic anaerobic co-digestion of corn stover and cattle manure to enhance biomethane production. Journal of Environmental Science and Health, Part A, 54(5), 452-460. View at Publisher | View at Google Scholar | View at Indexing
- Zuo, R., & Ding, Y. (2019). Direct aromatic nitration system for synthesis of nitrotryptophans in Escherichia coli. ACS synthetic biology, 8(4), 857-865. View at Publisher | View at Google Scholar | View at Indexing
- Švarc, A., Blaževi?, Z. F., Vasi?-Ra?ki, ?., Charnock, S. J., & Prese?ki, A. V. (2020). A multi-enzyme strategy for the production of a highly valuable lactonized statin side-chain precursor. Chemical Engineering Research and Design, 164, 35-45. View at Publisher | View at Google Scholar | View at Indexing
- Kulkarni, S. (2021). Enzymes as Biocatalysts: Review on Investigations on Synthesis, Mechanism, Kinetics, Applications and Potential. View at Publisher | View at Google Scholar | View at Indexing
- Gorantla, J. N., Maniganda, S., Pengthaisong, S., Ngiwsara, L., Sawangareetrakul, P., Chokchaisiri, S., ... & Ketudat Cairns, J. R. (2021). Chemoenzymatic and Protecting-Group-Free Synthesis of 1, 4-Substituted 1, 2, 3-Triazole-α-d-glucosides with Potent Inhibitory Activity toward Lysosomal α-Glucosidase. ACS omega, 6(39), 25710-25719. View at Publisher | View at Google Scholar | View at Indexing
- Gronemeyer, P., Ditz, R., & Strube, J. (2014). Trends in upstream and downstream process development for antibody manufacturing. Bioengineering, 1(4), 188-212. View at Publisher | View at Google Scholar | View at Indexing
- Jossen, V., Pörtner, R., Kaiser, S. C., Kraume, M., Eibl, D., & Eibl, R. (2014). Mass production of mesenchymal stem cells—impact of bioreactor design and flow conditions on proliferation and differentiation. In Cells and Biomaterials in Regenerative Medicine (Vol. 2014). London: InTech. View at Publisher | View at Google Scholar | View at Indexing
- Gupta, S. K., & Shukla, P. (2017). Sophisticated cloning, fermentation, and purification technologies for an enhanced therapeutic protein production: a review. Frontiers in pharmacology, 8, 419. View at Publisher | View at Google Scholar | View at Indexing
- Kyriakopoulos, S., & Kontoravdi, C. (2014). A framework for the systematic design of fed?batch strategies in mammalian cell culture. Biotechnology and Bioengineering, 111(12), 2466-2476. View at Publisher | View at Google Scholar | View at Indexing
- Gronemeyer, P., Ditz, R., & Strube, J. (2016). DoE based integration approach of upstream and downstream processing regarding HCP and ATPE as harvest operation. Biochemical Engineering Journal, 113, 158-166. View at Publisher | View at Google Scholar | View at Indexing
- Gronemeyer, P., Ditz, R., & Strube, J. (2016). DoE based integration approach of upstream and downstream processing regarding HCP and ATPE as harvest operation. Biochemical Engineering Journal, 113, 158-166. View at Publisher | View at Google Scholar | View at Indexing
- Gronemeyer, P., Ditz, R., & Strube, J. (2016). DoE based integration approach of upstream and downstream processing regarding HCP and ATPE as harvest operation. Biochemical Engineering Journal, 113, 158-166. View at Publisher | View at Google Scholar | View at Indexing
- Kaiser, S. C., Kraume, M., Eibl, D., & Eibl, R. (2015). Single-use bioreactors for animal and human cells. In Animal Cell Culture (pp. 445-500). Springer, Cham. View at Publisher | View at Google Scholar | View at Indexing
- Rathore, A. S., Singh, S. K., Kumar, J., & Kapoor, G. (2018). Implementation of QbD for Manufacturing of Biologics—Has It Met the Expectations?. In Biopharmaceutical Processing (pp. 1051-1073). Elsevier. View at Publisher | View at Google Scholar | View at Indexing
- Yang, Y., You, M., Chen, F., Jia, T., Chen, Y., Zhou, B., ... & Xia, N. (2018). Efficient development of a stable cell pool for antibody production using a single plasmid. The Journal of Biochemistry, 163(5), 391-398. View at Publisher | View at Google Scholar | View at Indexing
- Kozak, R. P., Tortosa, C. B., Fernandes, D. L., & Spencer, D. I. (2015). Comparison of procainamide and 2-aminobenzamide labeling for profiling and identification of glycans by liquid chromatography with fluorescence detection coupled to electrospray ionization–mass spectrometry. Analytical biochemistry, 486, 38-40. View at Publisher | View at Google Scholar | View at Indexing
- Dotz, V., Haselberg, R., Shubhakar, A., Kozak, R. P., Falck, D., Rombouts, Y., ... & Wuhrer, M. (2015). Mass spectrometry for glycosylation analysis of biopharmaceuticals. TrAC trends in analytical chemistry, 73, 1-9. View at Publisher | View at Google Scholar | View at Indexing
- Kozak, R. P., Royle, L., Gardner, R. A., Bondt, A., Fernandes, D. L., & Wuhrer, M. (2014). Improved nonreductive O-glycan release by hydrazinolysis with ethylenediaminetetraacetic acid addition. Analytical biochemistry, 453, 29-37. View at Publisher | View at Google Scholar | View at Indexing
- Kotsias, M., Kozak, R. P., Gardner, R. A., Wuhrer, M., & Spencer, D. I. (2019). Improved and semi-automated reductive β-elimination workflow for higher throughput protein O-glycosylation analysis. PloS one, 14(1), e0210759. View at Publisher | View at Google Scholar | View at Indexing
- Kotsias, M., Kozak, R. P., Gardner, R. A., Wuhrer, M., & Spencer, D. I. (2019). Improved and semi-automated reductive β-elimination workflow for higher throughput protein O-glycosylation analysis. PloS one, 14(1), e0210759. View at Publisher | View at Google Scholar | View at Indexing
- Mathieu-Rivet, E., Lerouge, P., & Bardor, M. (2017). Chlamydomonas reinhardtii: protein glycosylation and production of biopharmaceuticals. In Chlamydomonas: Biotechnology and Biomedicine (pp. 45-72). Springer, Cham. View at Publisher | View at Google Scholar | View at Indexing
- Cardon, F., Pallisse, R., Bardor, M., Caron, A., Vanier, J., Ele Ekouna, J. P., ... & Guillet, M. (2019). Brassica rapa hairy root based expression system leads to the production of highly homogenous and reproducible profiles of recombinant human alpha?L?iduronidase. Plant biotechnology journal, 17(2), 505-516. View at Publisher | View at Google Scholar | View at Indexing
- Kotsias, M., Maduni?, K., Nicolardi, S., Kozak, R. P., Gardner, R. A., Jansen, B. C., ... & Wuhrer, M. (2021). A semi-automated, high throughput approach for O-glycosylation profiling of in vitro established cancer cell lines by MALDI-FT-ICR MS. Glycoconjugate Journal, 1-10. View at Publisher | View at Google Scholar | View at Indexing
- Kozak, R. P. (2017). Rapid and sensitive methods for the analysis and identification of O-glycans from glycoproteins (Doctoral dissertation, Leiden University). View at Publisher | View at Google Scholar | View at Indexing
- Delobel, A. (2021). Glycosylation of Therapeutic Proteins: A Critical Quality Attribute. Methods in Molecular Biology (Clifton, NJ), 2271, 1-21. View at Publisher | View at Google Scholar | View at Indexing
- Kaiser, S. C., Kraume, M., Eibl, D., & Eibl, R. (2015). Single-use bioreactors for animal and human cells. In Animal Cell Culture (pp. 445-500). Springer, Cham. View at Publisher | View at Google Scholar | View at Indexing
- Zitzmann, J., Sprick, G., Weidner, T., Schreiber, C., & Czermak, P. (2017). Process optimization for recombinant protein expression in insect cells. New Insights into Cell Culture Technology; Gowder, SJT, Ed.; InTech Open: Rijeka, Croatia, 43-98. View at Publisher | View at Google Scholar | View at Indexing
- Ventini-Monteiro, D., Dubois, S., Astray, R. M., Castillo, J., & Pereira, C. A. (2015). Insect cell entrapment, growth and recovering using a single-use fixed-bed bioreactor. Scaling up and recombinant protein production. Journal of biotechnology, 216, 110-115. View at Publisher | View at Google Scholar | View at Indexing
- Zitzmann, J., Weidner, T., & Czermak, P. (2017). Optimized expression of the antimicrobial protein Gloverin from Galleria mellonella using stably transformed Drosophila melanogaster S2 cells. Cytotechnology, 69(2), 371-389. View at Publisher | View at Google Scholar | View at Indexing
- Chen, T., Li, D., Song, Y., Yang, X., Liu, Q., Jin, X., ... & Huang, Z. (2017). A heterologous prime-boost Ebola virus vaccine regimen induces durable neutralizing antibody response and prevents Ebola virus-like particle entry in mice. Antiviral research, 145, 54-59. View at Publisher | View at Google Scholar | View at Indexing
- Santos, N. G., Rocca, M. P., Pereira, C. A., Ventini, D. C., Puglia, A. L. P., Jorge, S. A., ... & Astray, R. M. (2016). Impact of recombinant Drosophila S2 cell population enrichment on expression of rabies virus glycoprotein. Cytotechnology, 68(6), 2605-2611. View at Publisher | View at Google Scholar | View at Indexing
- Zitzmann, J., Schreiber, C., Eichmann, J., Bilz, R. O., Salzig, D., Weidner, T., & Czermak, P. (2018). Single-cell cloning enables the selection of more productive Drosophila melanogaster S2 cells for recombinant protein expression. Biotechnology Reports, 19, e00272. View at Publisher | View at Google Scholar | View at Indexing
- Erasmus, J. H., & Weaver, S. C. (2017). Biotechnological applications of an insect-specific alphavirus. DNA and cell biology, 36(12), 1045-1049. View at Publisher | View at Google Scholar | View at Indexing
- Vatandoost, J., & Sani, K. K. (2018). A study of recombinant factor IX in Drosophila insect S2 cell lines through transient gene expression technology. Avicenna journal of medical biotechnology, 10(4), 265. View at Publisher | View at Google Scholar | View at Indexing
- Kanthala, S., Mill, C. P., Riese II, D. J., Jaiswal, M., & Jois, S. (2016). Expression and purification of HER2 extracellular domain proteins in Schneider2 insect cells. Protein expression and purification, 125, 26-33. View at Publisher | View at Google Scholar | View at Indexing
- Olivero-Deibe, N., Tomé-Poderti, L., Carrión, F., Bianchi, S., Fló, M., Prieto, D., ... & Pritsch, O. (2021). Expression, Purification, and Characterization of Bovine Leukemia Virus-Like Particles Produced in Drosophila S2 Cells. Frontiers in Virology, 22. View at Publisher | View at Google Scholar | View at Indexing
- Olivero-Deibe, N., Tomé-Poderti, L., Carrión, F., Bianchi, S., Fló, M., Prieto, D., ... & Pritsch, O. (2021). Expression, Purification, and Characterization of Bovine Leukemia Virus-Like Particles Produced in Drosophila S2 Cells. Frontiers in Virology, 22. View at Publisher | View at Google Scholar | View at Indexing
- Poulsen, L., & de Jongh, W. A. (2014). Advances in the Application of Perfusion Technologies to Drosophila S2 Insects Cell Culture. In Continuous Processing in Pharmaceutical Manufacturing (pp. 165-182). Weinheim, Germany: Wiley?VCH Verlag GmbH & Co. KGaA. View at Publisher | View at Google Scholar | View at Indexing