Finkemeier lab (@ifink_lab) 's Twitter Profile
Finkemeier lab

@ifink_lab

Plant Physiology & Functional Proteomics group of Iris Finkemeier @uni_muenster. Focus on PTMs in plant acclimation #acetylation #organelles #proteomics

ID: 982741050585427969

linkhttp://go.wwu.de/agfinkemeier calendar_today07-04-2018 22:04:59

725 Tweet

989 Followers

707 Following

Science for Sustainable Agriculture (@scisustag) 's Twitter Profile Photo

Newly elected UK Labour Government set to allow the use of gene editing to create crops designed to be more nutritious, resistant to pests and diseases, and able to cope with the effects of climate change. express.co.uk/news/politics/…

German Society for Plant Sciences (DBG) (@plantscidbg_en) 's Twitter Profile Photo

The call for papers + registrations for ECR’s to attend next German Society for Plant Sciences (DBG)’s #Strasburger Symposium 📍Universität Münster is extended to 📆27th October. Highly recommended for ECR's interested in #chloroplasts! x.com/IFink_lab/stat…

@sfb1348.bsky.social (@sfb1348) 's Twitter Profile Photo

In a special seminar on Monday, October 07, at 12:00, @sfb1348.bsky.social will host Sabrina Büttner BüttnerLab, who just joined Universität Münster. Welcome to our scientific community! Don't miss Sabrina's seminar on  Organelle connectivity during cellular aging and metabolic adaptation!

In a special seminar on Monday, October 07, at 12:00, <a href="/Sfb1348/">@sfb1348.bsky.social</a> will host Sabrina Büttner <a href="/ButtnerLab/">BüttnerLab</a>, who just joined <a href="/uni_muenster/">Universität Münster</a>. Welcome to our scientific community! Don't miss Sabrina's seminar on 
Organelle connectivity during cellular aging and metabolic adaptation!
Ralf Reski 🇩🇪🇪🇺 (@reskilab) 's Twitter Profile Photo

Happy to showcase our latest, just out Plant Cell Reports: A snapshot of the Physcomitrella N-terminome reveals N-terminal methylation of organellar proteins link.springer.com/article/10.100…

The Nobel Prize (@nobelprize) 's Twitter Profile Photo

The 2024 #NobelPrize laureates in chemistry Demis Hassabis and John Jumper have successfully utilised artificial intelligence to predict the structure of almost all known proteins. In 2020, Hassabis and Jumper presented an AI model called AlphaFold2. With its help, they have

The 2024 #NobelPrize laureates in chemistry Demis Hassabis and John Jumper have successfully utilised artificial intelligence to predict the structure of almost all known proteins.

In 2020, Hassabis and Jumper presented an AI model called AlphaFold2. With its help, they have
The Nobel Prize (@nobelprize) 's Twitter Profile Photo

2024 #NobelPrize laureate in chemistry David Baker has succeeded with the almost impossible feat of building entirely new kinds of proteins. In recent years, one incredible protein creation after the other has emerged from Baker’s laboratory. They range from new nanomaterials

The Nobel Prize (@nobelprize) 's Twitter Profile Photo

… to proteins that function as a type of molecular rotor. Animation: ©Terezia Kovalova/The Royal Swedish Academy of Sciences #NobelPrize

The Nobel Prize (@nobelprize) 's Twitter Profile Photo

This year’s chemistry laureates Demis Hassabis and John Jumper have developed an AI model, AlphaFold2, to solve a 50-year-old problem: predicting proteins’ complex structures. Check out two examples of protein structures determined using AlphaFold2. First up, a bacterial enzyme

Jay Ieh (@jay_ieh) 's Twitter Profile Photo

Check out our latest #OpenAccess ✅ publication in Molecular & Cellular Proteomics 📰 on light dependent ☀️😎 #Acetylation marks in #Arabidopsis 🌱sciencedirect.com/science/articl… by Finkemeier lab Giglione Carmela and others #plantscience #proteomics #PTMs

UhrigLab (@labuhrig) 's Twitter Profile Photo

!! Come join us in Banff, Canada May 2025 for the International Plant Proteomics conference !! An outstanding line up of speakers with more to be selected from submitted abstracts. Register today at inppo2025.org

!! Come join us in Banff, Canada May 2025 for the International Plant Proteomics conference !!

An outstanding line up of speakers with more to be selected from submitted abstracts.

Register today at inppo2025.org
Leibniz Institute of Plant Biochemistry Halle (@ipb_halle) 's Twitter Profile Photo

+++Newsticker Science+++ IPB and Uni Münster researchers have taken an #Omics approach to investigate #PlantResilience to high light stress. 🔗Read more: ipb-halle.de/en/public-rela… 📃The Plant Journal article: doi.org/10.1111/tpj.16… Finkemeier lab Alain Tissier #plantsci #metabolomics

Finkemeier lab (@ifink_lab) 's Twitter Profile Photo

We will move to ILYSE FINK-lab.bsky.social and we hope to see you there! Same features and user interface and a fast growing community! #plants #proteomics #PTMs #acetylation #chromatin #mitochondria #chloroplasts #seeds #metabolism

We will move to <a href="/ifink/">ILYSE FINK</a>-lab.bsky.social and we hope to see you there! Same features and user interface and a fast growing community! #plants #proteomics #PTMs #acetylation #chromatin #mitochondria #chloroplasts #seeds #metabolism
Ora Hazak (@ihazak) 's Twitter Profile Photo

Some news to share: Hazak Lab will move soon to beautiful Münster! Excited to open a new chapter as a tenure-track Professor at the University of Münster Universität Münster in 2025. Looking forward to join a great scientific community Finkemeier lab Plant Energy Biology Lab and others!

Some news to share: Hazak Lab will move soon to beautiful Münster! Excited to open a new chapter as a tenure-track Professor at the University of Münster <a href="/uni_muenster/">Universität Münster</a>  in 2025. Looking forward to join a great scientific community <a href="/IFink_lab/">Finkemeier lab</a> <a href="/schwarzland_lab/">Plant Energy Biology Lab</a>  and others!
Physiologia Plantarum (@pplplantarum) 's Twitter Profile Photo

The study explores the role of plastidic NAD-dependent malate dehydrogenase in redox homeostasis. Recent findings suggest it is regulated via reversible cysteine oxidation, impacting plastid metabolism. bit.ly/4jGLyKp Finkemeier lab

The study explores the role of plastidic NAD-dependent malate dehydrogenase in redox homeostasis. Recent findings suggest it is regulated via reversible cysteine oxidation, impacting plastid metabolism. 

bit.ly/4jGLyKp 
<a href="/IFink_lab/">Finkemeier lab</a>