***August/September 2022*** mRNA/mDNA 'vaccines'
REFERENCES:
[1] Mascellino,A. Biometric Update. Italian national digital ID scheme reaches 30 million users milestone (9 May 2022).[Online]15 Aug 22.Avail. at: https://www.biometricupdate.com/202205/italian-national-digital-id-scheme-reaches-30-million-users-milestone
[2] IDEMIA.IDEMIA extends its footprint within the French ID ecosystem with a new mobile application for the national digital ID program (6 Mar 22).[Online]15 Aug 22.Avail. at: https://www.idemia.com/news/idemia-extends-its-footprint-within-french-id-ecosystem-new-mobile-application-national-digital-id-program-2022-06-03
[3] Spanjaard, T. Smart Insights. France Digital ID is coming.[Online]15 August 22.Avail. at: https://www.smartinsights.net/single-post/france-digital-id-is-coming
[4] Department of Health and Social Care. Covid Pass Delivery Partner (5 April 2022).[Online]15 Aug 22.Avail. at:https://www.contractsfinder.service.gov.uk/notice/054df563-77af-437e-8bec-5169997f5b5a?origin=SearchResults&p=1
[5] Crown Commercial Service. Provision of Contact Centre Services for The Single Service Centre SERCO Contract (18 Mar 2022).[Online]15 Aug 22.Avail. at: https://www.contractsfinder.service.gov.uk/notice/dbf91db8-4d6d-4bd4-899f-b47f0a1f7708?origin=SearchResults&p=1
[7] Guennoun,M.,Zandi,M.and El-Khatib,K."On the Use of Biometrics to Secure Wireless Biosensor Networks.".3rd Int Conf on Info and Comm Tech: From Theory to App, pp.1-5,(2008).
[8] D’Mello, S., Kappas, A., Gratch, J. The Affective Computing Approach to Affect Measurement.Emotion Review, Vol.10, No.2, pp.174-183,(2018).
[9] House of Commons Library. What is the proposed WHO Pandemic Preparedness Treaty (18th May 2022)?[Online]15 Aug 22.Avail. at:https://commonslibrary.parliament.uk/research-briefings/cbp-9550/
[10] Waibler, Z., Anzaghe, M., Ludwig, H., Akira, S., Weiss, S., Sutter, G., Kalinke, U.Modified vaccinia virus Ankara induces Toll-like receptor-independent type I interferon responses.J Virol., Vol.81, No.22, pp.12102-12110,(2007).
[11] Gränicher, G., Tapia, F., Behrendt, I., Jordan, I., Genzel, Y., Reichl, U. Production of Modified Vaccinia Ankara Virus by Intensified Cell Cultures: A Comparison of Platform Technologies for Viral Vector Production.Biotechnol J., Vol.16, No.1,(2021).
[12] Kang, S., H., Kim, M., Y., Cho, M., Y., Baik, S., K. Autoimmune Hepatitis Following Vaccination for SARS-CoV-2 in Korea: Coincidence or Autoimmunity?. J Korean Med Sci., Vol.37, No.15,(2022).
[13] Zin Tun, G., S., Gleeson, D., Al-Joudeh, A., Dube, A. Immune-mediated hepatitis with the Moderna vaccine, no longer a coincidence but confirmed. J Hepatol., Vol.76, No.3, pp.747-749,(2022).
[14] Ghielmetti, M., Schaufelberger, H., D., Mieli-Vergani, G., Cerny, A., Dayer, E., Vergani, D., Terziroli Beretta-Piccoli, B.Acute autoimmune-like hepatitis with atypical anti-mitochondrial antibody after mRNA COVID-19 vaccination:
A novel clinical entity? J Autoimmun. Vol.123:102706,(2021).
[15] Pinazo-Bandera, J. M., Hernández-Albújar, A., García-Salguero, A., I., Arranz-Salas, I., Andrade, R., J., Robles-Díaz, M.
Acute hepatitis with autoimmune features after COVID-19 vaccine: coincidence or vaccine-induced phenomenon?Gastroenterology Report, Vol. 10,(2022).
[16] Yamada, H., Dias, V., S., Parker, A., G., Maiga, H., Kraupa,Hamidou Maiga, Carina Kraupa, Marc J. B. Vreysen, Wadaka Mamai, Marc F. Schetelig, Nanwintoum S. Bimbilé Somda & Jeremy Bouyer Radiation dose-rate is a neglected critical parameter in dose–response of insects. Sci Rep 12, 6242,(2022).
[17] Caplin N, Willey N. Ionizing Radiation, Higher Plants, and Radioprotection: From Acute High Doses to Chronic Low Doses. Front Plant Sci. 2018 Jun 26;9:847.
[18] Shamsi,S.,R.,A.,Sofajy,S.,A.Effects of low doses of gamma radiation on the growth and yield of two cultivars of broad bean.J Environ and Experim Botany, Vol.20, Issue 1, pp.87-94,(1980).
[19] Soliman,T.,Lv,S.,Yang,H.,Hung,B.,Ma,N.,Zhao,L.Isolation of flower color and shape mutations by gamma radiation of Chrysanthemum morifolium Ramat cv. Youka. J Euphytica, Vol.199,No.3,(2014).
[20] Pasqual, E., Boussin, F., Bazyka, D., Nordenskjold, A., Yamada, M., Ozasa, K., Pazzaglia, S., Roy, L.,Thierry-Chef, I., de Vathaire, F., Benotmane, M., A., Cardis, E.Cognitive effects of low dose of ionizing radiation – Lessons learned and research gaps from epidemiological and biological studies. J Int Environment, Vol.147:106295,(2021).
[21] Betlazar,C.,Middleton,R.,J.,Banati,R.,B.,Liu,G., .The impact of high and low dose ionising radiation on the central nervous system.Redox Biol., Vol.9, pp.144-156,(2016).
[22] Lumniczky,K.,Szatmári,T. and Sáfrány,G.Ionizing Radiation-Induced Immune and Inflammatory Reactions in the Brain.
Front. Immunol.,(05 May 17).
[23] Busby, C. A Risk Coefficient for Radiation-Induced Dementia. Adv in Alzheimer's Dis, Vol.7, pp.13-35,(2018).
[24] Greene-Schloesser, D., Robbins, M., E. Radiation-induced cognitive impairment-from bench to bedside.
Neuro Oncol. Vol.14, Suppl.4,(2012).
URLlbry://@HealthTech#5/Talk_EN_Aug2022_IK_ICXCNIKA_FINAL#2
Claim ID2b88f73e998874d60a3ea1a66c5091ea8a05ac06
1.87 GB
149
views
***Αύγ/Σεπτ 2022*** mRNA/mDNA 'εμβόλια'
REFERENCES:
[1] Mascellino, A. Biometric Update. Italian national digital ID scheme reaches 30 million users milestone(9 May 22).
[Online]15 Aug 22.Avail. at: https://www.biometricupdate.com/202205/italian-national-digital-id-scheme-reaches-30-million-users-milestone
[2] IDEMIA. IDEMIA extends its footprint within the French ID ecosystem with a new mobile application for the national digital ID program(6 Mar 22).[Online]15 Aug 22. Avail. at: https://www.idemia.com/news/idemia-extends-its-footprint-within-french-id-ecosystem-new-mobile-application-national-digital-id-program-2022-06-03
[3] Spanjaard,T. Smart Insights. France Digital ID is coming.[Online]15 Aug 22.Avail. at: https://www.smartinsights.net/single-post/france-digital-id-is-coming
[4] Department of Health and Social Care.Covid Pass Delivery Partner(5 April 22).[Online]15 Aug 22.Avail. at: https://www.contractsfinder.service.gov.uk/notice/054df563-77af-437e-8bec-5169997f5b5a?origin=SearchResults&p=1
[5] Crown Commercial Service. Provision of Contact Centre Services for The Single Service Centre SERCO Contract (18 Mar 22).[Online]15 Aug 22.Avail. at: https://www.contractsfinder.service.gov.uk/notice/dbf91db8-4d6d-4bd4-899f-b47f0a1f7708?origin=SearchResults&p=1
[7] Guennoun, M., Zandi,M. and El-Khatib,K."On the Use of Biometrics to Secure Wireless Biosensor Networks.".3rd Int Conf on Info and Comm Tech:From Theory to App, pp.1-5,(2008).
[8] D’Mello, S., Kappas, A.,Gratch, J. The Affective Computing Approach to Affect Measurement.Emotion Review, Vol.10, No.2, pp.174-183,(2018).
[9] House of Commons Library.What is the proposed WHO Pandemic Preparedness Treaty (18 May 22)?[Online]15 Aug 22. Avail. at: https://commonslibrary.parliament.uk/research-briefings/cbp-9550/
[10] Waibler,Z.,Anzaghe,M.,Ludwig,H.,Akira,S.,Weiss,S.,Sutter,G.,Kalinke,U.Modified vaccinia virus Ankara induces Toll-like receptor-independent type I interferon responses. J Virol., Vol.81, No.22, pp.12102-12110,(2007).
[11] Gränicher, G., Tapia, F., Behrendt, I., Jordan, I., Genzel, Y., Reichl, U. Production of Modified Vaccinia Ankara Virus by Intensified Cell Cultures: A Comparison of Platform Technologies for Viral Vector Production.Biotechnol J., Vol.16, No.1, (2021).
[12] Kang, S., H., Kim, M., Y., Cho, M., Y., Baik, S., K. Autoimmune Hepatitis Following Vaccination for SARS-CoV-2
in Korea: Coincidence or Autoimmunity?. J Korean Med Sci., Vol.37, No.15,(2022).
[13] Zin Tun, G., S., Gleeson, D., Al-Joudeh, A., Dube, A. Immune-mediated hepatitis with the Moderna vaccine,no longer a coincidence but confirmed. J Hepatol., Vol.76, No.3, pp.747-749,(2022).
[14] Ghielmetti, M., Schaufelberger, H., D., Mieli-Vergani, G., Cerny, A., Dayer, E., Vergani, D., Terziroli Beretta-Piccoli, B. Acute autoimmune-like hepatitis with atypical anti-mitochondrial antibody after mRNA COVID-19 vaccination:A novel clinical entity? J Autoimmun. Vol.123:102706,(2021).
[15] Pinazo-Bandera, J. M., Hernández-Albújar, A., García-Salguero, A., I., Arranz-Salas, I., Andrade, R., J., Robles-Díaz, M.
Acute hepatitis with autoimmune features after COVID-19 vaccine: coincidence or vaccine-induced phenomenon? Gastroenterology Report, Vol. 10,(2022).
[16] Yamada, H., Dias, V., S., Parker, A., G., Maiga, H., Kraupa,Hamidou Maiga, Carina Kraupa, Marc J. B. Vreysen, Wadaka Mamai, Marc F. Schetelig, Nanwintoum S. Bimbilé Somda & Jeremy Bouyer Radiation dose-rate is a neglected critical parameter in dose–response of insects.Sci Rep 12, 6242,(2022).
[17] Caplin N, Willey N. Ionizing Radiation, Higher Plants, and Radioprotection: From Acute High Doses to Chronic Low Doses. Front Plant Sci. 2018 Jun 26;9:847.
[18] Shamsi, S., R., A., Sofajy, S., A.Effects of low doses of gamma radiation on the growth and yield of two cultivars of broad bean.J Environ and Experim Botany, Vol.20, Issue 1, pp.87-94,(1980).
[19] Soliman, T., Lv, S., Yang, H.,Hung, B., Ma, N., Zhao, L. Isolation of flower color and shape mutations by gamma radiation of Chrysanthemum morifolium Ramat cv. Youka. J Euphytica, Vol.199, No.3, (2014).
[20] Pasqual,E.,Boussin,F.,Bazyka,D.,Nordenskjold,A.,Yamada,M.,Ozasa,K.,Pazzaglia,S.,Roy,L.,Thierry-Chef,I.,de Vathaire,F.,Benotmane,M.,A.,Cardis,E.Cognitive effects of low dose of ionizing radiation – Lessons learned and research gaps from epidemiological and biological studies. J Int Environment, Vol.147:106295, (2021).
[21] Betlazar,C., Middleton,R., J., Banati,R., B., Liu,G., J.The impact of high and low dose ionising radiation on the central nervous system.Redox Biol.,Vol.9, pp.144-156,(2016).
[22] Lumniczky, K., Szatmári, T. and Sáfrány, G. Ionizing Radiation-Induced Immune and Inflammatory Reactions in the Brain.
Front. Immunol.,(5 May 2017).
[23] Busby, C. A Risk Coefficient for Radiation-Induced Dementia. Adv in Alzheimer's Dis,Vol.7, pp.13-35,(2018).
[24] Greene-Schloesser, D., Robbins, M., E. Radiation-induced cognitive impairment-from bench to bedside.Neuro Oncol. Vol.14,Suppl.4, (2012).
URLlbry://@HealthTech#5/Talk_GR_Aug2022_IK_ICXCNIKA_FINAL#7
Claim ID7f19278af2fd3e3fec16c165ffe48cfdef7cac9e
1.99 GB
96
views
4
comments
mRNA/mDNA 'vaccines' and ionising radiation
REFERENCES
[1] Cho SW, Kim S, Kim JM, Kim JS. Targeted genome engineering in human cells with the Cas9 RNA-guided endonuclease. Nat Biotechnol. Vol.31, No.3, pp.230-2, (2013).
[2] Feinendegen LE, Pollycove M. Biologic responses to low doses of ionizing radiation: detriment versus hormesis. Part 1.
Dose responses of cells and tissues. J Nucl Med., Vol.42, No.7, (2001).
[3] Mieczkowska K., Deutsch A., McLellan B., Kabarriti R., Brodin N. P., Koba W. R., and Kosaku Shinoda, K., Investigating the role of interleukin-17 in radiation dermatitis. J of Clinical Oncology, Vol.39, No.15, (2021).
[4] Peltek, O.O., Muslimov, A.R., Zyuzin, M.V., Timin A. S., Current outlook on radionuclide delivery systems: from design consideration to translation into clinics. J Nanobiotechnol, Vol.17, No.90, (2019).
[5] Genetic Engineering and Biotechnology News. A Tap of Radiation Enhances Gene Editing of Human Stem Cells (23rd July 2015). [Online] 15 July 22. Avail. at: https://www.genengnews.com/topics/omics/a-tap-of-radiation-enhances-gene-editing-of-human-stem-cells/
[6] Hatada, S., Subramanian, A., Mandefro, B., Ren, S., Kim, H. W., Tang, J, Funari, V., Baloh, R. H., Sareen, D., rumugaswami, V., Svendsen, C. N. Low-Dose Irradiation Enhances Gene Targeting in Human Pluripotent Stem Cells. Stem Cells Transl Med., Vol.4, No.9, pp.998-1010, (2015).
[7] Russell, E., Dunne, V., Russell, B., Mohamud, H., Ghita, M., McMahon, S. J., Butterworth, K. T., Schettino, G., McGarry, C. K., Prise, K. M. Impact of superparamagnetic iron oxide nanoparticles on in vitro and in vivo radiosensitisation of cancer cells. Radiat Oncol, Vol.16, No.104, (2021).
[8] Clinical Trials, NIH US National Library of Medicine, Allegheny Singer Research Institute, ID:NCT04682847. Radiotherapy With Iron Oxide Nanoparticles (SPION) on MR-Linac for Primary & Metastatic Hepatic Cancers (First Posted on 24 Dec 2020). [Online] 15 July 22. Avail. at: https://clinicaltrials.gov/ct2/show/NCT04682847
[9] Singh, N., Jenkins, G. J., Asadi, R., Doak, S. H. Potential toxicity of superparamagnetic iron oxide nanoparticles (SPION). J Nano Rev., Vol.1, (2010).
[10] Nelson, N., R., Port, J., D., Pandey, M., K. Use of Superparamagnetic Iron Oxide Nanoparticles (SPIONs) via Multiple
Imaging Modalities and Modifications to Reduce Cytotoxicity: An Educational Review. J. Nanotheranostics, Vol.1, pp.105-135, (2020).
[11] Tenchov, R., CAS American Chemical Society. Understanding the nanotechnology in COVID-19 vaccines (18 February 2021). [Online] 15 July 22. Avail. at: https://www.cas.org/resource/blog/understanding-nanotechnology-covid-19-vaccines
[12] Perkin Elmer. Polyethylene Glycol(PEG) 4000, [14C]. [Online] 15 July 22. Avail. at: https://www.perkinelmer.com/uk/product/polyethylene-glycol-4000-14c-nec826050uc
[13] Liu, H., Laan, A., C., Plomp, J., Parnell, S., R., Men, Y., Dalgliesh, R., M., Eelkema, R., Denkova, A. G. Ionizing Radiation-Induced Release from Poly(ε-caprolactone-b-ethylene glycol) Micelles ACS Appl. Polym. Mater. Vol.3, No.2, pp.968–975, (2020).
[14] Mahadevappa, V. G., and Holub, B. J. The incorporation of [3H]glycerol and 1-[14C]acyl-sn-glycero-3-phosphocholine into different molecular species of phosphatidylcholine in human platelets. Canadian J of Biochemistry and Cell Biology. Vol.62, No.9, pp.827-830, (1984).
[15] Leyton, J., Smith, G., Zhao, Y., Perumal, M., Nguyen, Q-D., Robins, E., Arstad, E., Aboagye, E., O. [18F]Fluoromethyl-[1,2- 2H4]-Choline: A Novel Radiotracer for Imaging Choline Metabolism in Tumors by Positron Emission Tomography. J Cancer Res, Vol.69, No.19, pp.7721-7728, (2009).
[16] Yavin, E., Regulation of phospholipid metabolism in differentiating cells from rat brain cerebral hemispheres in culture.
Patterns of acetylcholine phosphocholine, and choline phosphoglycerides labeling from (methyl-14C)choline., J of Biol Chem, Vol.251, No.5, pp.1392-1397, (1976).
[17] Ishikawa, Y., Umezawa, R., Yamamoto, T., Takahashi, N., Takeda, K., Suzuki, Y., Jingu, K. Radiation recall phenomenon after administration of the mRNA-1273 SARS-CoV-2 vaccine. Int Canc Conf J, Vol.11, pp.91–95, (2022).
[18] Soyfer, V., Gutfeld, O., Shamai, S., Schlocker, A., Merimsky, O. COVID-19 Vaccine-Induced Radiation Recall Phenomenon. Int J of Radiation Onco Biol Phys, Vol.110, Issue 4, pp.957-961, (2021).
[19] Steber, C. R., Ponnatapura, J., Hughes, R. T., Farris, M. K. Rapid Development of Clinically Symptomatic Radiation Recall Pneumonitis Immediately Following COVID-19 Vaccination. Cureus, Vol.13, No.4, (2021).
[20] Copplestone, D., Bielby, S., Jones, S. R., Patton, D., Daniel, P., Gize, I. Impact Assessment of Ionising Radiation on Wildlife. Environment Agency, R&D Publication 128, (July 2002) [Online] 15 July 22. Avail. at: https://assets.publishing.service.gov.uk/government/uploads/system/uploads/attachment_data/file/290300/sr-dpub-128-e-e.pdf
URLlbry://@HealthTech#5/Talk_EN_IK_ICXCNIKA_FINAL#3
Claim ID3e34d873c0f162a878e79d30e7eefa04f8e11cf8
220.21 MB
312
views
1
comment
mRNA/mDNA 'εμβόλια' και ιονίζουσα ραδιοακτινοβολία
REFERENCES
[1] Cho SW, Kim S, Kim JM, Kim JS. Targeted genome engineering in human cells with the Cas9 RNA-guided endonuclease. Nat Biotechnol. Vol.31, No.3, pp.230-2, (2013).
[2] Feinendegen LE, Pollycove M. Biologic responses to low doses of ionizing radiation: detriment versus hormesis. Part 1.
Dose responses of cells and tissues. J Nucl Med., Vol.42, No.7, (2001).
[3] Mieczkowska K., Deutsch A., McLellan B., Kabarriti R., Brodin N. P., Koba W. R., and Kosaku Shinoda, K., Investigating the role of interleukin-17 in radiation dermatitis. J of Clinical Oncology, Vol.39, No.15, (2021).
[4] Peltek, O.O., Muslimov, A.R., Zyuzin, M.V., Timin A. S., Current outlook on radionuclide delivery systems: from design consideration to translation into clinics. J Nanobiotechnol, Vol.17, No.90, (2019).
[5] Genetic Engineering and Biotechnology News. A Tap of Radiation Enhances Gene Editing of Human Stem Cells (23rd July 2015). [Online] 15 July 22. Avail. at: https://www.genengnews.com/topics/omics/a-tap-of-radiation-enhances-gene-editing-of-human-stem-cells/
[6] Hatada, S., Subramanian, A., Mandefro, B., Ren, S., Kim, H. W., Tang, J, Funari, V., Baloh, R. H., Sareen, D., rumugaswami, V., Svendsen, C. N. Low-Dose Irradiation Enhances Gene Targeting in Human Pluripotent Stem Cells. Stem Cells Transl Med., Vol.4, No.9, pp.998-1010, (2015).
[7] Russell, E., Dunne, V., Russell, B., Mohamud, H., Ghita, M., McMahon, S. J., Butterworth, K. T., Schettino, G., McGarry, C. K., Prise, K. M. Impact of superparamagnetic iron oxide nanoparticles on in vitro and in vivo radiosensitisation of cancer cells. Radiat Oncol, Vol.16, No.104, (2021).
[8] Clinical Trials, NIH US National Library of Medicine, Allegheny Singer Research Institute, ID:NCT04682847. Radiotherapy With Iron Oxide Nanoparticles (SPION) on MR-Linac for Primary & Metastatic Hepatic Cancers (First Posted on 24 Dec 2020). [Online] 15 July 22. Avail. at: https://clinicaltrials.gov/ct2/show/NCT04682847
[9] Singh, N., Jenkins, G. J., Asadi, R., Doak, S. H. Potential toxicity of superparamagnetic iron oxide nanoparticles (SPION). J Nano Rev., Vol.1, (2010).
[10] Nelson, N., R., Port, J., D., Pandey, M., K. Use of Superparamagnetic Iron Oxide Nanoparticles (SPIONs) via Multiple
Imaging Modalities and Modifications to Reduce Cytotoxicity: An Educational Review. J. Nanotheranostics, Vol.1, pp.105-135, (2020).
[11] Tenchov, R., CAS American Chemical Society. Understanding the nanotechnology in COVID-19 vaccines (18 February 2021). [Online] 15 July 22. Avail. at: https://www.cas.org/resource/blog/understanding-nanotechnology-covid-19-vaccines
[12] Perkin Elmer. Polyethylene Glycol(PEG) 4000, [14C]. [Online] 15 July 22. Avail. at: https://www.perkinelmer.com/uk/product/polyethylene-glycol-4000-14c-nec826050uc
[13] Liu, H., Laan, A., C., Plomp, J., Parnell, S., R., Men, Y., Dalgliesh, R., M., Eelkema, R., Denkova, A. G. Ionizing Radiation-Induced Release from Poly(ε-caprolactone-b-ethylene glycol) Micelles ACS Appl. Polym. Mater. Vol.3, No.2, pp.968–975, (2020).
[14] Mahadevappa, V. G., and Holub, B. J. The incorporation of [3H]glycerol and 1-[14C]acyl-sn-glycero-3-phosphocholine into different molecular species of phosphatidylcholine in human platelets. Canadian J of Biochemistry and Cell Biology. Vol.62, No.9, pp.827-830, (1984).
[15] Leyton, J., Smith, G., Zhao, Y., Perumal, M., Nguyen, Q-D., Robins, E., Arstad, E., Aboagye, E., O. [18F]Fluoromethyl-[1,2- 2H4]-Choline: A Novel Radiotracer for Imaging Choline Metabolism in Tumors by Positron Emission Tomography. J Cancer Res, Vol.69, No.19, pp.7721-7728, (2009).
[16] Yavin, E., Regulation of phospholipid metabolism in differentiating cells from rat brain cerebral hemispheres in culture.
Patterns of acetylcholine phosphocholine, and choline phosphoglycerides labeling from (methyl-14C)choline., J of Biol Chem, Vol.251, No.5, pp.1392-1397, (1976).
[17] Ishikawa, Y., Umezawa, R., Yamamoto, T., Takahashi, N., Takeda, K., Suzuki, Y., Jingu, K. Radiation recall phenomenon after administration of the mRNA-1273 SARS-CoV-2 vaccine. Int Canc Conf J, Vol.11, pp.91–95, (2022).
[18] Soyfer, V., Gutfeld, O., Shamai, S., Schlocker, A., Merimsky, O. COVID-19 Vaccine-Induced Radiation Recall Phenomenon. Int J of Radiation Onco Biol Phys, Vol.110, Issue 4, pp.957-961, (2021).
[19] Steber, C. R., Ponnatapura, J., Hughes, R. T., Farris, M. K. Rapid Development of Clinically Symptomatic Radiation Recall Pneumonitis Immediately Following COVID-19 Vaccination. Cureus, Vol.13, No.4, (2021).
[20] Copplestone, D., Bielby, S., Jones, S. R., Patton, D., Daniel, P., Gize, I. Impact Assessment of Ionising Radiation on Wildlife. Environment Agency, R&D Publication 128, (July 2002) [Online] 15 July 22. Avail. at: https://assets.publishing.service.gov.uk/government/uploads/system/uploads/attachment_data/file/290300/sr-dpub-128-e-e.pdf
URLlbry://@HealthTech#5/Talk2_GR_IK_ICXCNIKA_FINAL#a
Claim IDa9b3a9f8ca8ae790232b9d081fee146f618c2f65
199.35 MB
209
views
mRNA/mDNA 'vaccines' and the change of the human genome -new synthetic species transhuman 2.0
REFERENCES
[1] Aldén M., Olofsson Falla F., Yang D., Barghouth M., Luan C., Rasmussen M., De Marinis, Y. Intracellular Reverse Transcription of Pfizer BioNTech COVID-19 mRNA Vaccine BNT162b2 In Vitro in Human Liver Cell Line. Curr. Issues Mol. Biol. 2022, Vol.44, pp.1115-1126.
[2] Ebeling M, Küng E, See A, Broger C, Steiner G, Berrera M, Heckel T, Iniguez L, Albert T, Schmucki R, Biller H, Singer T, Certa U. Genome-based analysis of the nonhuman primate Macaca fascicularis as a model for drug safety assessment.
Genome Res. 2011, Vol.21, No.10, pp.1746-56.
[3] Fong V., Penn State, Eberly College of Science. Analysis of Rhesus Monkey Genome Uncovers Diferences with Humans, Chimps (17th April 2007). [Online] 30 June 22. Avail. at:https://science.psu.edu/news/analysis-rhesus-monkey-genome-uncovers-differences-humans-chimps
[4] Graves J., The Conversation. Differences between men and women are more than the sum of their genes (30 July 2015).
[Online] 30 June 22. Avail. at: https://theconversation.com/differences-between-men-and-women-are-more-than-the-sum-of-their-genes-39490
[5] Felsenfeld G., A brief history of epigenetics. Cold Spring Harb Perspect Biol. 2014, Vol.6, No.1.
[6] Wanjek C., The NIH Catalyst (Intramural Research). Systems Biology as Defined by NIH: An Intellectual Resource for Integrative Biology (Vol.19, Issue 6, November-December 2011). [Online] 30 June 22. Avail. at:https://irp.nih.gov/catalyst/v19i6/systems-biology-as-defined-by-nih#:~:text=Systems%20biology%20is%20an%20approach,involves%20taking%20the%20pieces%20apart
.
[7] Navlakha S, Bar-Joseph Z. Algorithms in nature: the convergence of systems biology and computational thinking. Mol Syst Biol. 2011, Vol.7, pp.546.
[8] Khalil R., El-Kordy A., Sobh H., Nature-Inspired Algorithms as a Part of the Biomimetic Architecture: A Brief Discussion.
Int Journal of Sciences: Basic and Applied Research (IJSBAR), 2022, Vol.62, No.1, pp.281-287.
[9] Moreno E. Design and construction of "synthetic species". PLoS One. 2012, Vol.7, No.7.
[10] Vidyasagar A., Live Science. Lanese N., What is CRISPR? (21 Oct 2021). [Online] 30 June 22. Avail. at: https://www.livescience.com/58790-crispr-explained.html
[11] Pak E., Harvard Medical School. CRISPR: A game-changing genetic engineering technique (31st July 2014).
[Online] 30 June 22. Avail. at: https://sitn.hms.harvard.edu/flash/2014/crispr-a-game-changing-genetic-engineering-technique/
[12] Marchese D., The New York Times. Talk. Her Discovery Changed the World. How Does She Think We Should Use It? (12 Aug 2022). [Online] 1st Aug 22. Avail. at: https://www.nytimes.com/interactive/2022/08/15/magazine/jennifer-doudna-crispr-interview.html
[13] Liu H., Wang K., Tang H., Gong Q., Du L., Pei X., Ye X. CRISPR/Cas9 editing of wheat TaQ genes alters spike morphogenesis and grain threshability. Journal of Genetics and Genomics, Vol.47, Issue 9, 2020, pp.563-575.
[14] Reardon S., Step aside CRISPR, RNA editing is taking off. Nature, Vol.578, 2020, pp.24-27.
[15] Marson A., Innovative Genomics Institute. CRISPR-based enhancers of DNA vaccines for COVID-19. [Online] 30 June 22. Avail. at: https://innovativegenomics.org/projects/crispr-based-dna-vaccine-enhancer-covid-19/
[16] Ducharme J., TIME. mRNA's next chapter has nothing to do with COVID-19 vaccines (2nd Aug 2021). [Online] 30 June 22. Avail. at: https://time.com/6080127/crispr-mrna/
[17] Isaacson W., TIME. mRNA technology gave us the First COVID-19 Vaccines. It Could Also Upend the Drug Industry (11th Jan 2021). [Online] 30 June 22. Avail. at: https://time.com/5927342/mrna-covid-vaccine/
[18] Service R. F., Science. Forget single genes: CRISPR now cuts and splices whole chromosomes (29 Aug 2019). [Online] 30 June 22. Avail. at: https://www.science.org/content/article/forget-single-genes-crispr-now-cuts-and-splices-whole-chromosomes
[19] Teufel M., Klein C.A., Mager M., Sobetzko P. A multifunctional system for genome editing and large-scale interspecies gene transfer. Nat Commun, Vol.13, 2022, pp.3430.
[20] Teague BP, Guye P, Weiss R. Synthetic Morphogenesis. Cold Spring Harb Perspect Biol. Vol.8, No.9, 2016.
[21] Regalado A., MIT Technology Review, Biotechnology. CRISPR creates new species with single giant chromosome (1st Aug 2018). [Online] 30 June 22. Avail. at: https://www.technologyreview.com/2018/08/01/2439/crispr-creates-new-species-with-single-giant-chromosome/
[22] Aguilera M., UC San Diego News Center. Synthetic SPECIES Developed for Use as a Confinable Gene Drive (2nd June 2021). [Online] 30 June 22. Avail. at:https://ucsdnews.ucsd.edu/pressrelease/synthetic-species-developed-for-use-as-a-confinable-gene-drive
[23] Cyranoski D., Nature. The CRISPR-baby scandal: what’s next for human gene-editing (11th March 2019). [Online] 30 June 22. Avail. at:https://www.nature.com/articles/d41586-019-00673-1
[24] Hendry A. P., Gotanda K. M. and Svensson E. I. Human influences on evolution, and the ecological and societal consequences.Phil. Trans. R. Soc. B, 2017, pp.372.
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REFERENCES:
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[4] Graves J., The Conversation. Differences between men and women are more than the sum of their genes (30 July 2015).
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[5] Felsenfeld G., A brief history of epigenetics. Cold Spring Harb Perspect Biol. 2014, Vol.6, No.1.
[6] Wanjek C., The NIH Catalyst (Intramural Research). Systems Biology as Defined by NIH: An Intellectual Resource for Integrative Biology (Vol.19, Issue 6, November-December 2011).[Online] 30 June 22. Avail. at:https://irp.nih.gov/catalyst/v19i6/systems-biology-as-defined-by-nih#:~:text=Systems%20biology%20is%20an%20approach,involves%20taking%20the%20pieces%20apart
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[9] Moreno E. Design and construction of "synthetic species". PLoS One. 2012, Vol.7, No.7.
[10] Vidyasagar A., Live Science. Lanese N., What is CRISPR? (21 Oct 2021). [Online] 30 June 22. Avail. at: https://www.livescience.com/58790-crispr-explained.html
[11] Pak E., Harvard Medical School. CRISPR: A game-changing genetic engineering technique (31st July 2014).
[Online] 30 June 22. Avail. at: https://sitn.hms.harvard.edu/flash/2014/crispr-a-game-changing-genetic-engineering-technique/
[12] Marchese D., The New York Times. Talk. Her Discovery Changed the World. How Does She Think We Should Use It? (12 Aug 2022).[Online] 1st Aug 22. Avail. at: https://www.nytimes.com/interactive/2022/08/15/magazine/jennifer-doudna-crispr-interview.html
[13] Liu H., Wang K., Tang H., Gong Q., Du L., Pei X., Ye X. CRISPR/Cas9 editing of wheat TaQ genes alters spike morphogenesis and grain threshability. Journal of Genetics and Genomics, Vol.47, Issue 9, 2020, pp.563-575.
[14] Reardon S., Step aside CRISPR, RNA editing is taking off. Nature, Vol.578, 2020, pp.24-27.
[15] Marson A., Innovative Genomics Institute. CRISPR-based enhancers of DNA vaccines for COVID-19.
[Online] 30 June 22. Avail. at: https://innovativegenomics.org/projects/crispr-based-dna-vaccine-enhancer-covid-19/
[16] Ducharme J., TIME. mRNA's next chapter has nothing to do with COVID-19 vaccines (2nd Aug 2021).
[Online] 30 June 22. Avail. at: https://time.com/6080127/crispr-mrna/
[17] Isaacson W., TIME. mRNA technology gave us the First COVID-19 Vaccines. It Could Also Upend the Drug Industry (11th Jan 2021). [Online] 30 June 22. Avail. at: https://time.com/5927342/mrna-covid-vaccine/
[18] Service R. F., Science. Forget single genes: CRISPR now cuts and splices whole chromosomes (29 Aug 2019).
[Online] 30 June 22. Avail. at: https://www.science.org/content/article/forget-single-genes-crispr-now-cuts-and-splices-whole-chromosomes
[19] Teufel M., Klein C.A., Mager M., Sobetzko P. A multifunctional system for genome editing and large-scale interspecies gene transfer. Nat Commun, Vol.13, 2022, pp.3430.
[20] Teague BP, Guye P, Weiss R. Synthetic Morphogenesis. Cold Spring Harb Perspect Biol. Vol.8, No.9, 2016.
[21] Regalado A., MIT Technology Review, Biotechnology. CRISPR creates new species with single giant chromosome (1st Aug 2018). [Online] 30 June 22. Avail. at: https://www.technologyreview.com/2018/08/01/2439/crispr-creates-new-species-with-single-giant-chromosome/
[22] Aguilera M., UC San Diego News Center. Synthetic SPECIES Developed for Use as a Confinable Gene Drive (2nd June 2021). [Online] 30 June 22. Avail. at:https://ucsdnews.ucsd.edu/pressrelease/synthetic-species-developed-for-use-as-a-confinable-gene-drive
[23] Cyranoski D., Nature. The CRISPR-baby scandal: what’s next for human gene-editing (11th March 2019).
[Online] 30 June 22. Avail. at:https://www.nature.com/articles/d41586-019-00673-1
[24] Hendry A. P., Gotanda K. M. and Svensson E. I. Human influences on evolution, and the ecological and societal consequences. Phil. Trans. R. Soc. B, 2017, pp.372.
URLlbry://@HealthTech#5/Talk1_GR_IK_ICXCNIKA_FINAL#3
Claim ID3b1e10a97a8b678ac2298761a3b14ade69d489f9
256.32 MB
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