A European Constitutional and Public Law Scholar

A European Constitutional and Public Law Schola

Phytoremediation and Nanoremediation : Emerging Techniques for Treatment of Acid Mine Drainage Water

Drainage from mining sites containing sulfur bearing rocks is known as acid mine drainage (AMD). Acid mine drainage water is a serious environmental pollutant that has its effects on plants, animals and microflora of a region. Mine water drainage mainly occurs due to anthropogenic activities like mining that leave the sulfur bearing rocks exposed. This drainage water poses as a potent soil, water and ground water pollutant. Although a lot of remediation measures have been implemented in the past but, none of them have been able to solve the problem completely. This review intends to focus on new emerging and better techniques in the form of phytoremediation and nanoremediation for treatment of acid mine drainage water. Besides, the review also gives more importance to the phytoremediation technique over nanoremediation because of the cost effectiveness and eco-friendly nature of the first and the nascent status of the latter. A hypothetical model discussing the use of hyperaccumulator plants in remediation of acid mine water has been proposed. The model also proposes natural induction of the phytoremedial ability of the plants involved in the remediation process. The proposed model assisted by inputs from further research, may be helpful in proper treatment of acid mine drainage water in the near future

Digital Transformation in Supply Chain Management: Artificial Intelligence (AI) and Machine Learning (ML) as Catalysts for Value Creation

In the rapidly evolving landscape of supply chain management (SCM), digital transformation has become a cornerstone for achieving competitive advantage. This paper explores the pivotal role of Artificial Intelligence (AI) and Machine Learning (ML) as catalysts in this transformation, driving significant value creation across various facets of SCM. Through a comprehensive literature review, including an analysis of 12 key papers, this study examines the integration of AI and ML in enhancing supply chain operations, from predictive analytics in demand forecasting to real-time decision-making in logistics and inventory management. The findings highlight the transformative impact of these technologies in optimizing efficiency, reducing costs, and improving overall supply chain resilience. The paper also addresses the challenges and ethical considerations inherent in implementing AI and ML, such as data privacy and workforce implications. Concluding with a look towards the future, this study underscores the growing importance of AI and ML in shaping the next generation of SCM practices. This research not only contributes to the academic discourse on digital supply chain transformation but also offers practical insights for industry professionals navigating this digital shift

Designing of Optical Devices for Biomedical Applications: A Study on IV Drip Rate Monitoring Device

Addition of biotelemetry in the field of bio-medical engineering is a useful method for improving the efficiency of the healthcare professionals. Thus it is necessary to develop devices that can improve the connectivity of the system. Optical devices have a huge application in this field. Simple optical devices can be used for the purpose of object detection, checking the optical density of samples. Intravenous infusion rate can be measured using drip rate monitorig device. A wireless drip rate monitoring device has been developed. This device incorporates the use of Light Emitting Diode (LED) and Light Dependant Resistor (LDR) to detect the drops. A mountable clasp system was used to mount the sensor on the drip chamber. Using microcontroller, the device calculates the drip rate and the Xbee communication module wirelessly notifies the centralized monitoring station whenever the drip rate crosses the desired range. A Network was developed using the Xbee Radio Modules to transmit the message to the central monitoring station. This adds feasibility and mobility in the system thus, increasing the efficiency of the healthcare professionals

Alfaviiruse nsP2 valk biokeemilisest vaatekohast: lugu mitmedomäänse valgu ensümaatilisest analüüsist

Väitekirja elektrooniline versioon ei sisalda publikatsioone.Chikungunya viirus (CHIKV) on suure meditsiinilise tähtsusega viirus mis kuulub alfaviiruste perekonda sugukonnas Togaviridae. Pregusel ajal ei ole CHIKV vastast vaktsiini ega spetsiifilist ravi. CHIKV paljunemine nakatatud rakkudes sõltub tema RNA genoomilt sünteesitavatest replikaasi valkudest. NsP2 on nelja replikaasi valgu seas suurim ja tal on palju teadaolevaid või eeldatavaid aktiivsuseid. Käesolevas töös näidati eksperimentaalselt, et CHIKV nsP2 omab kaheahelalist RNAd lahtiharutavat aktiivsust ning võib läbi viia ka vastupidist protsessi – soodustada kaheahelalise RNA moodustamist. Mõlemad need funktsioonid on olemas ainult täispikal nsP2 valgul. Peale selle näidati, et nsP2 omab ka NTPaset ja proteaaset aktiivsust. Kuna ka need aktiivsused on kõige tugevamad täispikal valgul siis saab saadud tulemustest järeldada, et CHIKV nsP2 toimib kui üks tervik: valgu erinevad osad seonduvad omavahel ja mõjutavad vastastikku üksteise aktiivsusi. Lisaks sellele leiti, et nsP2 aktiivsuseid mõjutavad ka mutatsioonid, mis on seotud mitte-tsütotoksilise fenotüübiga st. viiruse võimetusega maha suruda raku biosünteese ja põhjustada raku surma. Siiski ei saa kogutud andmeist teha järeldust milline või millised defektid nsP2 funktsioonides seda fenotüüpi põhjustavad. Lisaks nsP2 funktsionaalsele analüüsile viidi läbi ka muude CHIKV replikaasi valkude ekspresserimine ja puhastamine. Saadud kõrge kvaliteediga valke kasutati efektiivsete polüklonaalsete antiseerumite saamiseks. Nüüdseks on need töövahedid kasutusel paljudes laborites üle maailma ja on võimaldanud välja selgitada palju uusi fakte CHIKV (ja alfaviiruste üldse) molekulaarbioloogia kohta.Chikungunya virus (CHIKV, genus Alphavirus, family Togaviridae) has a positive sense RNA genome with length approximately 12 kb. It codes for four nonstructural (ns) proteins designated as nsP1, nsP2, nsP3 and nsP4 and for five or six structural proteins. Ns-proteins are involved in replication of virus RNA, in addition they also have functions unrelated to RNA replication. Out of all the nsPs, nsP2 plays a pivotal role towards regulation of CHIKV RNA replication. The protein was known to have NTPase, RTPase and protease activity and its N-terminal region was presumed to have helicase activity. Out of the enzymatic activities of nsP2 the helicase related functionalities were most insufficiently studied. Further, it was not known why two different and seemingly disconnected functional entities such as protease and helicase are present on a single polypeptide and what could be the importance of N terminal most part of nsP2 on the helicase activity. The bioinformatical, biochemical and biophysical approaches were employed to characterize the helicase related activities and to reveal the apparent minimal requirements for these activities. The bioinformatics platform suggests that the 3D-structure of the first 470 aa of nsP2 resembles the fold pattern of ToMV helicase which is a superfamily 1 of helicase. In particular, this fragment was predicted to consist from three domains. From these the extreme N terminal domain appears to be disordered while the other two domains possess RecA-like fold which is commonly found in NTPases. The biochemical analysis, carried out with purified full length and manipulated versions of nsP2, revealed that the C-terminal part of nsP2, which was known to have protease activity, is also essential for RNA helicase activity. Thus, the presence of protease region in nsP2 is clearly not accidental and these different functional domains are co-evolved to accomplish more significant tasks. The use of biophysical method (CD spectroscopy) confirmed that secondary structures of wt and manipulated versions of nsP2 are comparable; this indicates that functional defects detected in various enzymatic activities did not result from misfolding of mutant proteins. This also applies to forms of nsP2 which were engineered to contain mutations associated with noncytotoxic (NCT) phenotype of CHIKV replicons. It was found, all analyzed nsP2 enzymatic activities (protease, NTPase and helicase activities) were invariably affected by the NCT related mutations. In general, however, there was no significant correlation observed between extent of enzymatic defect(s) of nsP2 and phenotype of corresponding replicon. Thus, the development of NCT phenotype is apparently more complicated and could involve a number of underneath viral replication related functionalities. Finally, a number of ns-proteins from different alphaviruses were expressed, purified to raise polyclonal sera. These represent tools for detection of viral proteins using different immunological, such as western blot and immunofluorescence, methods. Similarly, the standardized enzymatic assays of nsP2 represent platform for screening and analysis of potential inhibitors of CHIKV infection. Taken together, these works elevated general understanding of nsP2 from a biochemical perspective and provided useful tools for studies aiming to understand molecular biology of alphaviruses