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#lipid — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #lipid, aggregated by home.social.

  1. hi #fediverse. I got a #mRNA transfection question. for a long mRNA (say a few thousand nucleotides), fully condensed, it quickly become >20 nm in size. Putting that in a #lipid #nanoparticle will make it grow even larger, and you get different cellular uptake mechanisms.

    Who can point me to some good literature? (yeah, I will do some searching myself, but you are all so awesome and don't want to miss out on your expertise ;)

  2. hi #fediverse. I got a #mRNA transfection question. for a long mRNA (say a few thousand nucleotides), fully condensed, it quickly become >20 nm in size. Putting that in a #lipid #nanoparticle will make it grow even larger, and you get different cellular uptake mechanisms.

    Who can point me to some good literature? (yeah, I will do some searching myself, but you are all so awesome and don't want to miss out on your expertise ;)

  3. hi #fediverse. I got a #mRNA transfection question. for a long mRNA (say a few thousand nucleotides), fully condensed, it quickly become >20 nm in size. Putting that in a #lipid #nanoparticle will make it grow even larger, and you get different cellular uptake mechanisms.

    Who can point me to some good literature? (yeah, I will do some searching myself, but you are all so awesome and don't want to miss out on your expertise ;)

  4. hi #fediverse. I got a #mRNA transfection question. for a long mRNA (say a few thousand nucleotides), fully condensed, it quickly become >20 nm in size. Putting that in a #lipid #nanoparticle will make it grow even larger, and you get different cellular uptake mechanisms.

    Who can point me to some good literature? (yeah, I will do some searching myself, but you are all so awesome and don't want to miss out on your expertise ;)

  5. hi #fediverse. I got a #mRNA transfection question. for a long mRNA (say a few thousand nucleotides), fully condensed, it quickly become >20 nm in size. Putting that in a #lipid #nanoparticle will make it grow even larger, and you get different cellular uptake mechanisms.

    Who can point me to some good literature? (yeah, I will do some searching myself, but you are all so awesome and don't want to miss out on your expertise ;)

  6. ✨ Speaker Spotlight | LIPID MAPS Training School ✨ This week we’re highlighting Jürgen Hartler, Assistant Professor of Computational Pharmacology at Universität Graz. Join them and other leading experts at the LIPID MAPS Training School – Oct 2026 👉 Register today here: bit.ly/4telXwQ #Lipid

  7. Let's #throwback to last month's webinar - Takeshi Harayama explored "Analysis of ether lipid structures, metabolic bias, and roles in ferroptosis" and hosted a live Q&A. If you missed it, watch the full recording now: www.lipidmaps.org/resources/ed... #TBT #Lipid #Lipidomics

  8. Upcoming #lipid webinar tomorrow: www.asbmb.org/meetings-eve... Zak Baker (WashU) and Sara Wong (Utah) on mitochondrial lipids, including the role of unsaturated lipids. Sounds interesting! #PUFA #biophysics #mitochondria Register at the link above.

    Lipid Research Division Semina...

  9. Lipide in Zellen sichtbar machen – Dresdner Forschenden gelingt Durchbruch

    Prozess direkt beobachten Seit Jahren versuchen Forschende weltweit, besser zu verstehen, wie Fette in Zellmembranen organisiert sind. Das…
    #Dresden #Deutschland #Deutsch #DE #Schlagzeilen #Headlines #Nachrichten #News #Europe #Europa #EU #Fette #Germany #Lipid-CLEM #Lipide #Membranforschung #Mikroskopie #MPI-CBG #Sachsen #Sphingomyelin #Zellbiologie #zellen #Zellmembran
    europesays.com/de/895330/

  10. Don't miss out on our webinars! Hit that subscribe button on our YouTube channel and get instant access to the recordings as soon as they're available. Stay updated and informed! 📺 www.youtube.com/@lipid-maps #Lipid #Lipidomics

  11. 🎉 Today’s the Day! This year's first LIPID MAPS Webinar is happening TODAY 🥳 📢 Presenter: Ashley Cowart 📝 Talk: "Variations in Serine Palmitoyltransferase and Functions of Atypical Sphingolipids" Don’t miss out—this is your last chance to register: buff.ly/7fBqngZ #LIPIDMAPS #Webinar #Lipid

  12. Don't miss out! Less than a week to go to register for this month's #webinar, ‘Variations in Serine Palmitoyltransferase and Functions of Atypical Sphingolipids’ presented by Ashley Cowart. Reserve your spot today: zoom.us/webinar/regi... #Lipid #Lipidomics

  13. 🔬 Something exciting is coming for the lipidomics community… 🧪 Stay tuned - you don’t want to miss this big announcement ... #ComingSoon #Lipidomics #Training #Lipid

  14. 🎉 Today’s the Day! This month’s LIPID MAPS #Webinar is happening TODAY 🥳 📢 Presenter: Xueli Guan 📝 Talk: "The ‘ABC’ Approach to Exploring the Fascinating World of Bacterial Lipids" Don’t miss out—this is your last chance to register: zoom.us/webinar/regi... #LIPIDMAPS #Lipid #Lipidomics

  15. How did primitive membranes form at the #OriginOfLife and how did they evolve into the cellular envelopes of modern cells?

    Exciting talk by Claudia Bonfio about the non-enzymatic formation of phospholipids under conditions that are plausible for early Earth. pubs.rsc.org/en/content/articl (1/2)

    #Chemistry #OriginOfLife #lipid #membrane #evolution #LipidTime #NucleicAcids

  16. How did primitive membranes form at the #OriginOfLife and how did they evolve into the cellular envelopes of modern cells?

    Exciting talk by Claudia Bonfio about the non-enzymatic formation of phospholipids under conditions that are plausible for early Earth. pubs.rsc.org/en/content/articl (1/2)

    #Chemistry #OriginOfLife #lipid #membrane #evolution #LipidTime #NucleicAcids

  17. How did primitive membranes form at the #OriginOfLife and how did they evolve into the cellular envelopes of modern cells?

    Exciting talk by Claudia Bonfio about the non-enzymatic formation of phospholipids under conditions that are plausible for early Earth. pubs.rsc.org/en/content/articl (1/2)

    #Chemistry #OriginOfLife #lipid #membrane #evolution #LipidTime #NucleicAcids

  18. How did primitive membranes form at the #OriginOfLife and how did they evolve into the cellular envelopes of modern cells?

    Exciting talk by Claudia Bonfio about the non-enzymatic formation of phospholipids under conditions that are plausible for early Earth. pubs.rsc.org/en/content/articl (1/2)

    #Chemistry #OriginOfLife #lipid #membrane #evolution #LipidTime #NucleicAcids

  19. How did primitive membranes form at the #OriginOfLife and how did they evolve into the cellular envelopes of modern cells?

    Exciting talk by Claudia Bonfio about the non-enzymatic formation of phospholipids under conditions that are plausible for early Earth. pubs.rsc.org/en/content/articl (1/2)

    #Chemistry #OriginOfLife #lipid #membrane #evolution #LipidTime #NucleicAcids

  20. A research team has developed a #fluorescent probe that allows #scientists to visualize how individual #lipid droplets break down inside living #cells in real time. The probe changes its fluorescence properties depending on the #chemical composition of each droplet
    #Biochemistry #MolecularBiology #sflorg
    sflorg.com/2025/11/bchm1119250

  21. ### #Fermented #bamboo shoot of #Tripura possesses #anti-obesity property
    > Posted On: 09 DEC 2024 5:25PM by PIB Delhi

    > Extract from a traditional fermented bamboo shoot variety of Tripura, popularly called called ‘Melye-amiley’ has anti-obesity effects and offers a solution to #weight management and #metabolic health, according to a new study. It reduces #lipid accumulation and increases fatty acid #β-oxidation.

    pib.gov.in/PressReleasePage.as

    #Melye-amiley

  22. ### #Fermented #bamboo shoot of #Tripura possesses #anti-obesity property
    > Posted On: 09 DEC 2024 5:25PM by PIB Delhi

    > Extract from a traditional fermented bamboo shoot variety of Tripura, popularly called called ‘Melye-amiley’ has anti-obesity effects and offers a solution to #weight management and #metabolic health, according to a new study. It reduces #lipid accumulation and increases fatty acid #β-oxidation.

    pib.gov.in/PressReleasePage.as

    #Melye-amiley

  23. ### #Fermented #bamboo shoot of #Tripura possesses #anti-obesity property
    > Posted On: 09 DEC 2024 5:25PM by PIB Delhi

    > Extract from a traditional fermented bamboo shoot variety of Tripura, popularly called called ‘Melye-amiley’ has anti-obesity effects and offers a solution to #weight management and #metabolic health, according to a new study. It reduces #lipid accumulation and increases fatty acid #β-oxidation.

    pib.gov.in/PressReleasePage.as

    #Melye-amiley

  24. Hepatic #lipid #metabolism is regulated by the #AutonomicNervousSystem. This study shows that some #hepatocytes & cholangiocytes are innervated by branches of the vagus nerve; ablating them in mice on a high-fat diet prevents #HepaticSteatosis #PLOSBiology plos.io/4hdJiJp

  25. Hepatic #lipid #metabolism is regulated by the #AutonomicNervousSystem. This study shows that some #hepatocytes & cholangiocytes are innervated by branches of the vagus nerve; ablating them in mice on a high-fat diet prevents #HepaticSteatosis #PLOSBiology plos.io/4hdJiJp

  26. Hepatic #lipid #metabolism is regulated by the #AutonomicNervousSystem. This study shows that some #hepatocytes & cholangiocytes are innervated by branches of the vagus nerve; ablating them in mice on a high-fat diet prevents #HepaticSteatosis #PLOSBiology plos.io/4hdJiJp

  27. Hepatic #lipid #metabolism is regulated by the #AutonomicNervousSystem. This study shows that some #hepatocytes & cholangiocytes are innervated by branches of the vagus nerve; ablating them in mice on a high-fat diet prevents #HepaticSteatosis #PLOSBiology plos.io/4hdJiJp

  28. Hepatic #lipid #metabolism is regulated by the #AutonomicNervousSystem. This study shows that some #hepatocytes & cholangiocytes are innervated by branches of the vagus nerve; ablating them in mice on a high-fat diet prevents #HepaticSteatosis #PLOSBiology plos.io/4hdJiJp

  29. Could changes in levels of circulating #lipid species be predictive of disease? @TabRubina @samrip &co reveal that #PolygenicScores for a range of #ComplexTraits are associated with changes in concentration of circulating lipid species #PLOSBiology plos.io/4eE76E9

  30. The discovery that a #lipid helps induce #cell #death could improve treatments for certain #cancers and #neurodegenerative diseases. Columbia researchers have found that a rare type of lipid is a key driver of #ferroptosis, a form of cell death
    #Biology #sflorg
    sflorg.com/2024/02/bio02152402

  31. The discovery that a #lipid helps induce #cell #death could improve treatments for certain #cancers and #neurodegenerative diseases. Columbia researchers have found that a rare type of lipid is a key driver of #ferroptosis, a form of cell death
    #Biology #sflorg
    sflorg.com/2024/02/bio02152402

  32. The discovery that a #lipid helps induce #cell #death could improve treatments for certain #cancers and #neurodegenerative diseases. Columbia researchers have found that a rare type of lipid is a key driver of #ferroptosis, a form of cell death
    #Biology #sflorg
    sflorg.com/2024/02/bio02152402

  33. The discovery that a #lipid helps induce #cell #death could improve treatments for certain #cancers and #neurodegenerative diseases. Columbia researchers have found that a rare type of lipid is a key driver of #ferroptosis, a form of cell death
    #Biology #sflorg
    sflorg.com/2024/02/bio02152402

  34. "two Medicago truncatula cortical cell–specific, #membrane-bound #proteins of a CYCLIN-DEPENDENT KINASE-LIKE (CKL) family associate with, and are #phosphorylation substrates of, DMI2 and a subset of the LysM #receptor #kinases. CKL1 and CKL2 are required for AM #symbiosis and control expression of #transcription factors that regulate part of the #lipid provisioning program. Onset of lipid provisioning is coupled with..the REDUCED ARBUSCULAR #MYCORRHIZA 1 (RAM1) #regulon"

    science.org/doi/10.1126/scienc

  35. "two Medicago truncatula cortical cell–specific, #membrane-bound #proteins of a CYCLIN-DEPENDENT KINASE-LIKE (CKL) family associate with, and are #phosphorylation substrates of, DMI2 and a subset of the LysM #receptor #kinases. CKL1 and CKL2 are required for AM #symbiosis and control expression of #transcription factors that regulate part of the #lipid provisioning program. Onset of lipid provisioning is coupled with..the REDUCED ARBUSCULAR #MYCORRHIZA 1 (RAM1) #regulon"

    science.org/doi/10.1126/scienc

  36. "two Medicago truncatula cortical cell–specific, #membrane-bound #proteins of a CYCLIN-DEPENDENT KINASE-LIKE (CKL) family associate with, and are #phosphorylation substrates of, DMI2 and a subset of the LysM #receptor #kinases. CKL1 and CKL2 are required for AM #symbiosis and control expression of #transcription factors that regulate part of the #lipid provisioning program. Onset of lipid provisioning is coupled with..the REDUCED ARBUSCULAR #MYCORRHIZA 1 (RAM1) #regulon"

    science.org/doi/10.1126/scienc

  37. "two Medicago truncatula cortical cell–specific, #membrane-bound #proteins of a CYCLIN-DEPENDENT KINASE-LIKE (CKL) family associate with, and are #phosphorylation substrates of, DMI2 and a subset of the LysM #receptor #kinases. CKL1 and CKL2 are required for AM #symbiosis and control expression of #transcription factors that regulate part of the #lipid provisioning program. Onset of lipid provisioning is coupled with..the REDUCED ARBUSCULAR #MYCORRHIZA 1 (RAM1) #regulon"

    science.org/doi/10.1126/scienc

  38. "two Medicago truncatula cortical cell–specific, #membrane-bound #proteins of a CYCLIN-DEPENDENT KINASE-LIKE (CKL) family associate with, and are #phosphorylation substrates of, DMI2 and a subset of the LysM #receptor #kinases. CKL1 and CKL2 are required for AM #symbiosis and control expression of #transcription factors that regulate part of the #lipid provisioning program. Onset of lipid provisioning is coupled with..the REDUCED ARBUSCULAR #MYCORRHIZA 1 (RAM1) #regulon"

    science.org/doi/10.1126/scienc

  39. A developer of messenger RNA therapies for respiratory and rare diseases says it received clearance to begin a clinical trial in the U.K. for an inhaled treatment for viral lung conditions.

    sciencebusiness.technewslit.co

    #News #Press #Science #Business #Regulatory #ClinicalTrial #Biotechnology #UK #Germany #mRNA #Lungs #Respiratory #Inhaled #Lipid #Nanoparticles #Immune