TruthArchive.ai - Tweets Saved By @FermentiLlc

@FermentiLlc - FERMENTI

What gets me the most censorship online is linking #sauerkraut'' (LacticAcidBacteria) and guidence of miRNA between the cis/trans median of the golgi apparatus. L.A.B.s mediate posttranslational products, hematopoietic cells, and multiple two component regulatory systems.

@FermentiLlc - FERMENTI

Once the mini nuc core heats enough water creating the pocket/foundry we deliver the L.A.B.'s and co2 gas to structure whatever metal or carbon source we choose. Then lift off to the orbital 3d printer to deliver the PolyLA's to grow our next ship. https://t.co/hakK8rUC6B

@FermentiLlc - FERMENTI

Did you know Miyazaki, of "My Neighbor Totoro" fame, also wrote an amazing manifesto against transgenics?? 10 minute video showing this in his masterpiece "Nausicaa of the Vally of the Wind." https://rumble.com/v3w4b5j-hidden-truth-in-scifi-1-miyazaki.html

Hidden Truth in SciFi: #1-Miyazaki Major spoilers ahead!!!!! Miyazaki hid the truth about the post racial cult in his masterpiece of Science Fiction "Nausicaa of the Vally of the Wind." A must read. rumble.com

@FermentiLlc - FERMENTI

This will be used to exploit the non terminal peptides intrinsic membrane Metalloproteinase 1 subunit formation. https://en.m.wikipedia.org/wiki/Metalloproteinase

Metalloproteinase - Wikipedia en.m.wikipedia.org

@FermentiLlc - FERMENTI

@EDJMrSanMan @KimDotcom Or add genes.. for "sustainable development goals"... but it's G.R.A.S. so it's not GOF.. 2023: "Saccharomyces cerevisiae: Multifaceted Applications in One Health and the Achievement of Sustainable Development Goals" https://www.mdpi.com/2673-8392/3/2/43

Saccharomyces cerevisiae: Multifaceted Applications in One Health and the Achievement of Sustainable Development Goals Saccharomyces cerevisiae (SC), a yeast with an extensive history in food and beverage fermentations, is increasingly acknowledged for its multifaceted application in promoting and benefiting all aspects of a ‘One Health’ approach, including the prevention and control of zoonoses. For instance, SC contributes to environmentally sustainable agricultural practices through the reduced use of toxic agents, thus minimizing air and soil pollution while enhancing crop quality. Additionally, this versatile yeast can improve the health of domestic and farm animals, leading to more efficient and sustainable food production, while fostering synergistic impacts across environmental, animal, and human health spheres. Moreover, SC directly applies benefits to human health by promoting improved nutrition, improving gut health through probiotics, as an alternative to antibiotics, and treating gastric disorders. By aligning with several Sustainable Development Goals (SDGs), SC is vital in advancing global health and well-being, environmental sustainability, and responsible consumption and production. This entry illustrates the numerous benefits of SC and highlights its significant impact on a global ‘One Health’ scale, promoting the achievement of SDGs through its unique characteristics and deeper understanding of its contribution to the One Health concept. mdpi.com

@FermentiLlc - FERMENTI

Amazing discription how the #microbiome uses the" two component regulatory system" under heat stress to recoordinate metabolism in dairy cows. Not what the article is about but a perfect and recent example "Our results showed that enzyme regulator activity, ATPase regulator activity, and protein folding were upregulated, while inner mitochondrial membrane protein complex and electron transfer activity were downregulated under HS. Correspondingly, protein processing in ER, TGF-beta signaling, and cholesterol metabolism pathways were upregulated, while the oxidative phosphorylation pathway was downregulated in the heat-stressed cows." https://bmcgenomics.biomedcentral.com/articles/10.1186/s12864-023-09484-1

Transcriptomic regulations of heat stress response in the liver of lactating dairy cows - BMC Genomics The global dairy industry is currently facing the challenge of heat stress (HS). Despite the implementation of various measures to mitigate the negative impact of HS on milk production, the cellular response of dairy cows to HS is still not well understood. Our study aims to analyze transcriptomic dynamics and functional changes in the liver of cows subjected to heat stress (HS). To achieve this, a total of 9 Holstein dairy cows were randomly selected from three environmental conditions - heat stress (HS), pair-fed (PF), and thermoneutral (TN) groups - and liver biopsies were obtained for transcriptome analysis. Both the dry matter intake (DMI) and milk yield of cows in the HS group exhibited significant reduction compared to the TN group. Through liver transcriptomic analysis, 483 differentially expressed genes (DEGs) were identified among three experimental groups. Especially, we found all the protein coding genes in mitochondria were significantly downregulated under HS and 6 heat shock proteins were significant upregulated after HS exposure, indicating HS may affect mitochondria integrity and jeopardize the metabolic homeostasis in liver. Furthermore, Gene ontology (GO) enrichment of DEGs revealed that the protein folding pathway was upregulated while oxidative phosphorylation was downregulated in the HS group, corresponding to impaired energy production caused by mitochondria dysfunction. The liver transcriptome analysis generated a comprehensive gene expression regulation network upon HS in lactating dairy cows. Overall, this study provides novel insights into molecular and metabolic changes of cows conditioned under HS. The key genes and pathways identified in this study provided further understanding of transcriptome regulation of HS response and could serve as vital references to mitigate the HS effects on dairy cow health and productivity. bmcgenomics.biomedcentral.com