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Naringenin Baskılanmış Kriyojel Membranların Hazırlanması ve Adsorpsiyon Davranışlarının İncelenmesi

Year 2023, , 149 - 154, 01.07.2023
https://doi.org/10.34248/bsengineering.1269745

Abstract

Naringenin önemli terapötik (tedavi edici) etkileri olan flavonoid sınıfından bir flavanondur. Yurt dışında fazlaca çalışılmış bir bileşik olan naringenin ülkemizde çok fazla dikkat çekmemiş olduğu düşünülmektedir. Yaygın şekilde bitkilerde bulunan bu naringenin molekülüne dikkat çekmek için yeni bir yöntem olan moleküler baskılama yöntemi kullanılarak naringenin baskılanmış kriyojeller sentezlenmiştir. Elementel analiz, termogravimetrik analiz ve şişme testleri gibi karakterizasyon çalışmaları ile birlikte adsorpsiyon ve seçicilik testleri de gerçekleştirilmiştir. Elde edilen bulgulardan bazıları aşağıda özetlenmiştir: Naringenin baskılanmış polimerlerde bozunma sıcaklığı 1,7 °C kadar yükselmiştir. Naringenin baskılanmış polimerdeki naringenin miktarı baskılanmamışa oranla %16,36’lık oranda yüksek bulunmuştur. MIP ve NIP için şişme değerleri sırasıyla %850 %967 olarak hesaplanmıştır.

Supporting Institution

Türkiye Bilimsel ve Teknolojik Araştırma Kurumu, TÜBİTAK

Project Number

121Z173

Thanks

Bu çalışma Türkiye Bilimsel ve Teknolojik Araştırma Kurumu tarafından desteklenmiştir (Hibe Numarası: 121Z173). Bu destek için TÜBİTAK'a çok teşekkür ederiz.

References

  • Acet Ö, Noma SAA, Acet BÖ, Dikici E, Osman B. Odabaşı M. 2023. A rational approach for 3D recognition and removal of L-asparagine via molecularly imprinted membranes. J Pharmac Biomedic Analysis, 226: 115250.
  • Acet Ö, Odabaşı M. 2022. Detection of N-hexanoyl-L-homoserine lactone via MIP-based QCM sensor: preparation and characterization. Polymer Bul, 80: 6657-6674.
  • Arabi M, Ostovan A, Li J, Wang X, Zhang Z, Choo J, Chen L. 2021. Molecular imprinting: green perspectives and strategies. Adv Mater, 33: 2100543.
  • Baydemir G, Bereli N, Andaç M, Say R, Galaev IY, Denizli A. 2009. Bilirubin recognition via molecularly imprinted supermacroporous cryogels. Colloids Surf B: Biointerfaces, 68: 33-38.
  • BelBruno JJ. 2018. Molecularly imprinted polymers. Chem Rev, 119: 94-119.
  • Chang H, Chang Y, Lai S, Chen K, Wang K, Chiu T, Chang F, Hsu L. 2017. Naringenin inhibits migration of lung cancer cells via the inhibition of matrix metalloproteinases-2 and-9. Exp Therap Medic, 13: 739-744.
  • Choudhury R, Chowrimootoo G, Srai K, Debnam E, Rice-Evans CA. 1999. Interactions of the flavonoid naringenin in the gastrointestinal tract and the influence of glycosylation. Biochem Biophysic Res Commun, 265: 410-415.
  • Cordenonsi LM, Bromberger NG, Raffin RP, Scherman EE. 2016. Simultaneous separation and sensitive detection of naringin and naringenin in nanoparticles by chromatographic method indicating stability and photodegradation kinetics. Biomed Chromatog, 30: 155-162.
  • Dikici E, Acet BÖ, Acet Ö, Odabaşi M. 2023. “Lab-on-pol” colormatic sensor platforms: Melamine detection with color change on melamine imprinted membranes. Microchem J, 188: 108468.
  • Ertürk G, Mattiasson B. 2014. Cryogels-versatile tools in bioseparation. J Chromatog A, 1357: 24-35.
  • Haupt K, Mosbach K. 2000. Molecularly imprinted polymers and their use in biomimetic sensors. Chem Rev, 100: 2495-2504.
  • Inanan T, Tüzmen N, Akgöl S, Denizli A. 2016. Selective cholesterol adsorption by molecular imprinted polymeric nanospheres and application to GIMS. Int J Biol Macromol, 92: 451-460.
  • Karasu T, Özgür E, Uzun L. 2023. MIP-on-a-Chip: Artificial receptors on microfluidic platforms for biomedical applications. J Pharm Biomed Analysis, 226: 115257.
  • Noori S, Tavirani MR, Deravi N, Rabbani MIM, Zarghi A. 2020. Naringenin enhances the anti-cancer effect of cyclophosphamide against MDA-MB-231 breast cancer cells via targeting the STAT3 signaling pathway. Iranian J Pharm Res, 19: 122.
  • Odabaşi M, Say R, Denizli A. 2007. Molecular imprinted particles for lysozyme purification. Mater Sci Eng C, 27: 90-99.
  • Patel K, Singh GK, Patel DK. 2018. A review on pharmacological and analytical aspects of naringenin. Chinese J Integrat Medic, 24: 551-560.
  • Rebello CJ, Beyl RA, Lertora JJL, Greenway FL, Ravussin E, Ribnicky DM, Poulev A, Kennedy BJ, Castro HF, Campagna SR. 2020. Safety and pharmacokinetics of naringenin: A randomized, controlled, single‐ascending‐dose clinical trial. Diabet Obesity Metabol, 22: 91-98.
  • Sant A, Ahmad I, Bhatia S. 2022. Extraction and Hydrolysis of Naringin from Citrus fruit peels. IOP Conf Ser: Mate Sci Eng, 1263: 12031.
  • Stabrauskiene J, Kopustinskiene DM, Lazauskas R, Bernatoniene J. 2022. Naringin and naringenin: Their mechanisms of action and the potential anticancer activities. Biomedicines, 10: 1686.
  • Trotta F, Drioli E, Baggiani C, Lacopo D. 2002. Molecular imprinted polymeric membrane for naringin recognition. J Membrane Sci, 201: 77-84.
  • Wackerlig J, Schirhagl R. 2016. Applications of molecularly imprinted polymer nanoparticles and their advances toward industrial use: a review. Analyt Chem, 88: 250-261.

Preparation of Naringenin Imprinted Cryogel Membranes and Investigation of Adsorption Behaviors

Year 2023, , 149 - 154, 01.07.2023
https://doi.org/10.34248/bsengineering.1269745

Abstract

Naringenin is a flavanone of the flavonoid class with significant therapeutic effects. It is thought that naringenin, a compound that has been studied extensively abroad, has not received much attention in our country. Naringenin imprinted cryogels were synthesized using a new method, molecular imprinting, to draw attention to this molecule of naringenin, which is commonly found in plants. Along with characterization studies such as elemental analysis, thermogravimetric analysis and swelling tests, adsorption and selectivity tests were also carried out. Some of the findings are summarized below: The degradation temperature of naringenin in imprinted polymers increased by 1.7 °C. The amount of naringenin in MIP was found to be 16.36% higher than in the NIP. Swelling values for MIP and NIP were calculated as 850% 967%, respectively.

Project Number

121Z173

References

  • Acet Ö, Noma SAA, Acet BÖ, Dikici E, Osman B. Odabaşı M. 2023. A rational approach for 3D recognition and removal of L-asparagine via molecularly imprinted membranes. J Pharmac Biomedic Analysis, 226: 115250.
  • Acet Ö, Odabaşı M. 2022. Detection of N-hexanoyl-L-homoserine lactone via MIP-based QCM sensor: preparation and characterization. Polymer Bul, 80: 6657-6674.
  • Arabi M, Ostovan A, Li J, Wang X, Zhang Z, Choo J, Chen L. 2021. Molecular imprinting: green perspectives and strategies. Adv Mater, 33: 2100543.
  • Baydemir G, Bereli N, Andaç M, Say R, Galaev IY, Denizli A. 2009. Bilirubin recognition via molecularly imprinted supermacroporous cryogels. Colloids Surf B: Biointerfaces, 68: 33-38.
  • BelBruno JJ. 2018. Molecularly imprinted polymers. Chem Rev, 119: 94-119.
  • Chang H, Chang Y, Lai S, Chen K, Wang K, Chiu T, Chang F, Hsu L. 2017. Naringenin inhibits migration of lung cancer cells via the inhibition of matrix metalloproteinases-2 and-9. Exp Therap Medic, 13: 739-744.
  • Choudhury R, Chowrimootoo G, Srai K, Debnam E, Rice-Evans CA. 1999. Interactions of the flavonoid naringenin in the gastrointestinal tract and the influence of glycosylation. Biochem Biophysic Res Commun, 265: 410-415.
  • Cordenonsi LM, Bromberger NG, Raffin RP, Scherman EE. 2016. Simultaneous separation and sensitive detection of naringin and naringenin in nanoparticles by chromatographic method indicating stability and photodegradation kinetics. Biomed Chromatog, 30: 155-162.
  • Dikici E, Acet BÖ, Acet Ö, Odabaşi M. 2023. “Lab-on-pol” colormatic sensor platforms: Melamine detection with color change on melamine imprinted membranes. Microchem J, 188: 108468.
  • Ertürk G, Mattiasson B. 2014. Cryogels-versatile tools in bioseparation. J Chromatog A, 1357: 24-35.
  • Haupt K, Mosbach K. 2000. Molecularly imprinted polymers and their use in biomimetic sensors. Chem Rev, 100: 2495-2504.
  • Inanan T, Tüzmen N, Akgöl S, Denizli A. 2016. Selective cholesterol adsorption by molecular imprinted polymeric nanospheres and application to GIMS. Int J Biol Macromol, 92: 451-460.
  • Karasu T, Özgür E, Uzun L. 2023. MIP-on-a-Chip: Artificial receptors on microfluidic platforms for biomedical applications. J Pharm Biomed Analysis, 226: 115257.
  • Noori S, Tavirani MR, Deravi N, Rabbani MIM, Zarghi A. 2020. Naringenin enhances the anti-cancer effect of cyclophosphamide against MDA-MB-231 breast cancer cells via targeting the STAT3 signaling pathway. Iranian J Pharm Res, 19: 122.
  • Odabaşi M, Say R, Denizli A. 2007. Molecular imprinted particles for lysozyme purification. Mater Sci Eng C, 27: 90-99.
  • Patel K, Singh GK, Patel DK. 2018. A review on pharmacological and analytical aspects of naringenin. Chinese J Integrat Medic, 24: 551-560.
  • Rebello CJ, Beyl RA, Lertora JJL, Greenway FL, Ravussin E, Ribnicky DM, Poulev A, Kennedy BJ, Castro HF, Campagna SR. 2020. Safety and pharmacokinetics of naringenin: A randomized, controlled, single‐ascending‐dose clinical trial. Diabet Obesity Metabol, 22: 91-98.
  • Sant A, Ahmad I, Bhatia S. 2022. Extraction and Hydrolysis of Naringin from Citrus fruit peels. IOP Conf Ser: Mate Sci Eng, 1263: 12031.
  • Stabrauskiene J, Kopustinskiene DM, Lazauskas R, Bernatoniene J. 2022. Naringin and naringenin: Their mechanisms of action and the potential anticancer activities. Biomedicines, 10: 1686.
  • Trotta F, Drioli E, Baggiani C, Lacopo D. 2002. Molecular imprinted polymeric membrane for naringin recognition. J Membrane Sci, 201: 77-84.
  • Wackerlig J, Schirhagl R. 2016. Applications of molecularly imprinted polymer nanoparticles and their advances toward industrial use: a review. Analyt Chem, 88: 250-261.
There are 21 citations in total.

Details

Primary Language Turkish
Subjects Engineering
Journal Section Research Articles
Authors

Emel Demirtaş 0000-0003-1561-5692

Mehmet Odabaşı 0000-0002-3288-132X

Project Number 121Z173
Early Pub Date June 11, 2023
Publication Date July 1, 2023
Submission Date March 23, 2023
Acceptance Date April 10, 2023
Published in Issue Year 2023

Cite

APA Demirtaş, E., & Odabaşı, M. (2023). Naringenin Baskılanmış Kriyojel Membranların Hazırlanması ve Adsorpsiyon Davranışlarının İncelenmesi. Black Sea Journal of Engineering and Science, 6(3), 149-154. https://doi.org/10.34248/bsengineering.1269745
AMA Demirtaş E, Odabaşı M. Naringenin Baskılanmış Kriyojel Membranların Hazırlanması ve Adsorpsiyon Davranışlarının İncelenmesi. BSJ Eng. Sci. July 2023;6(3):149-154. doi:10.34248/bsengineering.1269745
Chicago Demirtaş, Emel, and Mehmet Odabaşı. “Naringenin Baskılanmış Kriyojel Membranların Hazırlanması Ve Adsorpsiyon Davranışlarının İncelenmesi”. Black Sea Journal of Engineering and Science 6, no. 3 (July 2023): 149-54. https://doi.org/10.34248/bsengineering.1269745.
EndNote Demirtaş E, Odabaşı M (July 1, 2023) Naringenin Baskılanmış Kriyojel Membranların Hazırlanması ve Adsorpsiyon Davranışlarının İncelenmesi. Black Sea Journal of Engineering and Science 6 3 149–154.
IEEE E. Demirtaş and M. Odabaşı, “Naringenin Baskılanmış Kriyojel Membranların Hazırlanması ve Adsorpsiyon Davranışlarının İncelenmesi”, BSJ Eng. Sci., vol. 6, no. 3, pp. 149–154, 2023, doi: 10.34248/bsengineering.1269745.
ISNAD Demirtaş, Emel - Odabaşı, Mehmet. “Naringenin Baskılanmış Kriyojel Membranların Hazırlanması Ve Adsorpsiyon Davranışlarının İncelenmesi”. Black Sea Journal of Engineering and Science 6/3 (July 2023), 149-154. https://doi.org/10.34248/bsengineering.1269745.
JAMA Demirtaş E, Odabaşı M. Naringenin Baskılanmış Kriyojel Membranların Hazırlanması ve Adsorpsiyon Davranışlarının İncelenmesi. BSJ Eng. Sci. 2023;6:149–154.
MLA Demirtaş, Emel and Mehmet Odabaşı. “Naringenin Baskılanmış Kriyojel Membranların Hazırlanması Ve Adsorpsiyon Davranışlarının İncelenmesi”. Black Sea Journal of Engineering and Science, vol. 6, no. 3, 2023, pp. 149-54, doi:10.34248/bsengineering.1269745.
Vancouver Demirtaş E, Odabaşı M. Naringenin Baskılanmış Kriyojel Membranların Hazırlanması ve Adsorpsiyon Davranışlarının İncelenmesi. BSJ Eng. Sci. 2023;6(3):149-54.

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