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All Journal Jurnal Ledalero Research of Scientia Naturalis
Johannes Muller, Johannes
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Agriculture, Biological Sciences & Forestry Arts Humanities Astronomy Chemistry Economics, Econometrics & Finance Education Law, Crime, Criminology & Criminal Justice Physics Social Sciences

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GLOBALISASI DAN KONSILI VATIKAN II DI ASIA Muller, Johannes
Jurnal Ledalero Vol 13, No 1 (2014): MANUSIA MEMPERDAGANGKAN MANUSIA
Publisher : Ledalero Institute of Philosophy and Creative Technology (IFTK Ledalero), Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31385/jl.v13i1.70.133-154

Abstract

This paper gives some basic ideas regarding the relationship between globalisation and the Second Vatican Council in Asia as a starting point for more detailed studies in the future. The first part discusses the situation of the churches at the edge of Asian societies and Asian socio-cultural contexts as influenced by globalisation. Then some social concerns are outlined such as poverty, authoritarian regimes and ecological dangers where the church and Asian societies encounter each other. Church engagement in these issues is justified by reference to a number of Counciliar documents such as the Gaudium et spes Constitution and the Diginitatis humanae Declaration. The final part outlines a number of problems such as inculturation, inter-religious dialogue and religious-cultural dialogue. The author emphasises that this paper is not a theological evaluation, but rather a sociological one. Kata-kata Kunci: globalisasi, Konsili Vatikan II, Asia, Gereja, konteks sosio-budaya, pembangunan.
MICROBIAL CONSORTIA ENGINEERING: BRIDGING ENVIRONMENTAL MICROBIOLOGY AND SYNTHETIC BIOLOGY Salim, Achmad Agus; Wong, Lucas; Muller, Johannes
Research of Scientia Naturalis Vol. 3 No. 1 (2026)
Publisher : Yayasan Adra Karima Hubbi

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70177/scientia.v3i1.3342

Abstract

Natural ecosystems rely on complex microbial interactions that surpass the metabolic capabilities of isolated monocultures, yet engineering stable multi-species systems remains a significant challenge in biotechnology. This research addresses the unpredictability of interspecies social dynamics by integrating principles from environmental microbiology with the precision of synthetic biology. The study aims to evaluate a rational design framework for “obligate syntrophy” to maintain community stability and enhance metabolic throughput during the processing of complex feedstocks. Utilizing a “bottom-up” methodology, a synthetic consortium of Escherichia coli and Pseudomonas putida was engineered with cross-feeding circuits and quorum-sensing feedback loops for real-time population regulation. Results demonstrate that the engineered consortia achieved a stable co-existence for over 240 hours, representing a 45% increase in biomass yield and a 70% improvement in detoxification efficiency compared to non-engineered mixed cultures. Statistical analysis confirms that the division of metabolic labor significantly reduces individual cellular burden while increasing overall community resilience. This research concludes that bridging ecological wisdom with genetic circuit design provides a superior architecture for robust industrial bioprocessing. The findings offer a scalable blueprint for “programmable ecology,” asserting that engineered microbial consortia are essential for unlocking the full potential of the global circular bioeconomy.
Co-Authors Salim, Achmad Agus Wong, Lucas