@cerealcell.bsky.social
DFG Research Unit - Cell and Developmental Biology of Plants
Pinned
🌱Are you wondering what the research unit Cereal Stem Cell Systems is doing and what significance its research has for the future?🌾
🎥The video on our website www.cerealstemcells.de/index.php?br... explains what we focus on and why doing research on stem cells in plants is important. 🌽
🎥The video on our website www.cerealstemcells.de/index.php?br... explains what we focus on and why doing research on stem cells in plants is important. 🌽
From October 14–15, 2025, a workshop on „Academic Career Perspectives in Germany: Junior research Groups” took place in Regensburg. 📓🔬 Coach Dr. Birte Seffert from GSO* Berlin provided tips and resources on funding opportunities, host institutions, application preparation, and networking.
October 22, 2025 at 8:08 AM
From October 14–15, 2025, a workshop on „Academic Career Perspectives in Germany: Junior research Groups” took place in Regensburg. 📓🔬 Coach Dr. Birte Seffert from GSO* Berlin provided tips and resources on funding opportunities, host institutions, application preparation, and networking.
At the International Symposium on Cereal Meristems and Stem Cell Systems Dr. Ludi Wang (University of Cambridge) was honored with the Best Poster Award🏆 for her outstanding poster entitled “Cellular and molecular mechanisms of pistil suppression in maize”. Congratulations on the excellent poster!👏
October 20, 2025 at 9:51 AM
At the International Symposium on Cereal Meristems and Stem Cell Systems Dr. Ludi Wang (University of Cambridge) was honored with the Best Poster Award🏆 for her outstanding poster entitled “Cellular and molecular mechanisms of pistil suppression in maize”. Congratulations on the excellent poster!👏
🌱Are you wondering what the research unit Cereal Stem Cell Systems is doing and what significance its research has for the future?🌾
🎥The video on our website www.cerealstemcells.de/index.php?br... explains what we focus on and why doing research on stem cells in plants is important. 🌽
🎥The video on our website www.cerealstemcells.de/index.php?br... explains what we focus on and why doing research on stem cells in plants is important. 🌽
October 16, 2025 at 8:39 AM
🌱Are you wondering what the research unit Cereal Stem Cell Systems is doing and what significance its research has for the future?🌾
🎥The video on our website www.cerealstemcells.de/index.php?br... explains what we focus on and why doing research on stem cells in plants is important. 🌽
🎥The video on our website www.cerealstemcells.de/index.php?br... explains what we focus on and why doing research on stem cells in plants is important. 🌽
What a wonderful event! 🌱A big thank you to everyone who contributed to the success of our CSCS symposium 2025🌽: the top-class speakers for their inspiring presentations👏, our sponsors for their generous support💰, and all participants for the relaxed, collegial atmosphere. 🙂
October 16, 2025 at 8:09 AM
What a wonderful event! 🌱A big thank you to everyone who contributed to the success of our CSCS symposium 2025🌽: the top-class speakers for their inspiring presentations👏, our sponsors for their generous support💰, and all participants for the relaxed, collegial atmosphere. 🙂
Reposted
What a community, what a welcoming and inclusive atmosphere, what a location! Thank you @snsf.ch, CSF @ethz.ch, @newphyt.bsky.social, @biologists.bsky.social and @cerealcell.bsky.social for supporting us.
🌾Brachypodium 2025 was a blast🌾
Grazie mille - Thank you so much
Forza Brachy - Go Brachy
🌾Brachypodium 2025 was a blast🌾
Grazie mille - Thank you so much
Forza Brachy - Go Brachy
July 10, 2025 at 1:27 PM
What a community, what a welcoming and inclusive atmosphere, what a location! Thank you @snsf.ch, CSF @ethz.ch, @newphyt.bsky.social, @biologists.bsky.social and @cerealcell.bsky.social for supporting us.
🌾Brachypodium 2025 was a blast🌾
Grazie mille - Thank you so much
Forza Brachy - Go Brachy
🌾Brachypodium 2025 was a blast🌾
Grazie mille - Thank you so much
Forza Brachy - Go Brachy
Reposted
This #FluorescenceFriday our featured image is from by @lbmountain.bsky.social (@michaelraissig.bsky.social lab). It shows mature epidermal cell types in a grass leaf of Brachypodium distachyon.
Check out our post to learn more the image & Lea’s research: focalplane.biologists.com/2025/07/04/f...
Check out our post to learn more the image & Lea’s research: focalplane.biologists.com/2025/07/04/f...
Featured image with Lea Berg - FocalPlane
Featured image with Lea Berg - News
focalplane.biologists.com
July 4, 2025 at 2:03 PM
This #FluorescenceFriday our featured image is from by @lbmountain.bsky.social (@michaelraissig.bsky.social lab). It shows mature epidermal cell types in a grass leaf of Brachypodium distachyon.
Check out our post to learn more the image & Lea’s research: focalplane.biologists.com/2025/07/04/f...
Check out our post to learn more the image & Lea’s research: focalplane.biologists.com/2025/07/04/f...
🌍 Join Us in Regensburg for an International Symposium on Cereal Meristems and Stem Cell Systems!
📢 Abstract submission deadline was extended to 31 July 2025!
📍 Where: University of Regensburg, Germany
🕒 When: 28/09 to 1/10/2025
💻 Registration: cscs2025.de
📢 Abstract submission deadline was extended to 31 July 2025!
📍 Where: University of Regensburg, Germany
🕒 When: 28/09 to 1/10/2025
💻 Registration: cscs2025.de
July 16, 2025 at 7:00 AM
🌍 Join Us in Regensburg for an International Symposium on Cereal Meristems and Stem Cell Systems!
📢 Abstract submission deadline was extended to 31 July 2025!
📍 Where: University of Regensburg, Germany
🕒 When: 28/09 to 1/10/2025
💻 Registration: cscs2025.de
📢 Abstract submission deadline was extended to 31 July 2025!
📍 Where: University of Regensburg, Germany
🕒 When: 28/09 to 1/10/2025
💻 Registration: cscs2025.de
A 7-day-old maize embryo (center) surrounded by ESR cells that shape its microenvironment. These specialized cells may guide development by secreting signals and blocking plant hormones.Plant life begins with remarkable coordination. 🌽
🔬Picture from Dr. Guojing Jiang (University of Regensburg)
🔬Picture from Dr. Guojing Jiang (University of Regensburg)
July 8, 2025 at 7:18 AM
A 7-day-old maize embryo (center) surrounded by ESR cells that shape its microenvironment. These specialized cells may guide development by secreting signals and blocking plant hormones.Plant life begins with remarkable coordination. 🌽
🔬Picture from Dr. Guojing Jiang (University of Regensburg)
🔬Picture from Dr. Guojing Jiang (University of Regensburg)
Early bird registration and submission of abstracts ends on 15 July 2025!
Get ready to connect, collaborate, and innovate at the
International Symposium on Cereal Meristems and Stem Cell Systems!
📍 Where: University of Regensburg, Germany
🕒 When: 28/09 to 1/10/2025
💻 Registration: cscs2025.de
Get ready to connect, collaborate, and innovate at the
International Symposium on Cereal Meristems and Stem Cell Systems!
📍 Where: University of Regensburg, Germany
🕒 When: 28/09 to 1/10/2025
💻 Registration: cscs2025.de
June 26, 2025 at 7:52 AM
Early bird registration and submission of abstracts ends on 15 July 2025!
Get ready to connect, collaborate, and innovate at the
International Symposium on Cereal Meristems and Stem Cell Systems!
📍 Where: University of Regensburg, Germany
🕒 When: 28/09 to 1/10/2025
💻 Registration: cscs2025.de
Get ready to connect, collaborate, and innovate at the
International Symposium on Cereal Meristems and Stem Cell Systems!
📍 Where: University of Regensburg, Germany
🕒 When: 28/09 to 1/10/2025
💻 Registration: cscs2025.de
🔬3D Cell segmentation of the shoot apical meristem (SAM) of maize🌽in top/side view was analyzed by Dr Cecilia Lara Mondragon from the University of Tübingen.
💡The SAM consists of pluripotent stem cells that determine the cell number and position of all lateral organs during plant shoot development.
💡The SAM consists of pluripotent stem cells that determine the cell number and position of all lateral organs during plant shoot development.
June 11, 2025 at 9:01 AM
🔬3D Cell segmentation of the shoot apical meristem (SAM) of maize🌽in top/side view was analyzed by Dr Cecilia Lara Mondragon from the University of Tübingen.
💡The SAM consists of pluripotent stem cells that determine the cell number and position of all lateral organs during plant shoot development.
💡The SAM consists of pluripotent stem cells that determine the cell number and position of all lateral organs during plant shoot development.
⌛One month until early bird registration and abstract submission deadline!
The International Symposium on 🌽Cereal Meristems and Stem Cell Systems 🌱 organized by @cerealcell.bsky.social will take place in Regensburg (Germany) from Sep 28 – Oct 1, 2025.
Register until June 30: www.cscs2025.de
The International Symposium on 🌽Cereal Meristems and Stem Cell Systems 🌱 organized by @cerealcell.bsky.social will take place in Regensburg (Germany) from Sep 28 – Oct 1, 2025.
Register until June 30: www.cscs2025.de
May 28, 2025 at 8:44 AM
⌛One month until early bird registration and abstract submission deadline!
The International Symposium on 🌽Cereal Meristems and Stem Cell Systems 🌱 organized by @cerealcell.bsky.social will take place in Regensburg (Germany) from Sep 28 – Oct 1, 2025.
Register until June 30: www.cscs2025.de
The International Symposium on 🌽Cereal Meristems and Stem Cell Systems 🌱 organized by @cerealcell.bsky.social will take place in Regensburg (Germany) from Sep 28 – Oct 1, 2025.
Register until June 30: www.cscs2025.de
🔬 Proliferating cells in a barley inflorescence meristem visualized by Jan Maika, Heinrich Heine University Düsseldorf.
💡Cell proliferation is characterized by de novo DNA synthesis. Incorporation of 5-Ethynyl-2′-deoxyuridine, a thymidine analogue, detected with a fluorescent azide molecule in vivo.
💡Cell proliferation is characterized by de novo DNA synthesis. Incorporation of 5-Ethynyl-2′-deoxyuridine, a thymidine analogue, detected with a fluorescent azide molecule in vivo.
May 26, 2025 at 5:57 AM
🔬 Proliferating cells in a barley inflorescence meristem visualized by Jan Maika, Heinrich Heine University Düsseldorf.
💡Cell proliferation is characterized by de novo DNA synthesis. Incorporation of 5-Ethynyl-2′-deoxyuridine, a thymidine analogue, detected with a fluorescent azide molecule in vivo.
💡Cell proliferation is characterized by de novo DNA synthesis. Incorporation of 5-Ethynyl-2′-deoxyuridine, a thymidine analogue, detected with a fluorescent azide molecule in vivo.
🔬 This photo taken by Dr Yaping Zhou (University of Bonn) shows that defects in the lateral root system inhibit nutrient uptake and thereby affects the entire plant development in maize. 🌽While the WT has a normal leaf phenotype, the lateral root defective mutants have significantly smaller leaves.🍃
May 19, 2025 at 6:53 AM
🔬 This photo taken by Dr Yaping Zhou (University of Bonn) shows that defects in the lateral root system inhibit nutrient uptake and thereby affects the entire plant development in maize. 🌽While the WT has a normal leaf phenotype, the lateral root defective mutants have significantly smaller leaves.🍃
Early bird registration is ending soon!
Get ready to connect, collaborate, and innovate at the
International Symposium on Cereal Meristems and Stem Cell Systems!
📍 Where: University of Regensburg, Germany
🕒 When: 28th September - 1st October 2025
💻 Registration: cscs2025.de
Get ready to connect, collaborate, and innovate at the
International Symposium on Cereal Meristems and Stem Cell Systems!
📍 Where: University of Regensburg, Germany
🕒 When: 28th September - 1st October 2025
💻 Registration: cscs2025.de
May 6, 2025 at 6:46 AM
Early bird registration is ending soon!
Get ready to connect, collaborate, and innovate at the
International Symposium on Cereal Meristems and Stem Cell Systems!
📍 Where: University of Regensburg, Germany
🕒 When: 28th September - 1st October 2025
💻 Registration: cscs2025.de
Get ready to connect, collaborate, and innovate at the
International Symposium on Cereal Meristems and Stem Cell Systems!
📍 Where: University of Regensburg, Germany
🕒 When: 28th September - 1st October 2025
💻 Registration: cscs2025.de
📷This photo of the construction site 🏗of a new greenhouse at the Institute of Plant Sciences was taken by Prof Dr Grasser (University of Regensburg).
👷 A greenhouse that allows to grow even tropical maize 🌽 lines of about 4 m height indoors at highly controllable conditions 💦🌞🌡is taking shape. 🎉
👷 A greenhouse that allows to grow even tropical maize 🌽 lines of about 4 m height indoors at highly controllable conditions 💦🌞🌡is taking shape. 🎉
April 16, 2025 at 9:33 AM
📷This photo of the construction site 🏗of a new greenhouse at the Institute of Plant Sciences was taken by Prof Dr Grasser (University of Regensburg).
👷 A greenhouse that allows to grow even tropical maize 🌽 lines of about 4 m height indoors at highly controllable conditions 💦🌞🌡is taking shape. 🎉
👷 A greenhouse that allows to grow even tropical maize 🌽 lines of about 4 m height indoors at highly controllable conditions 💦🌞🌡is taking shape. 🎉
🔬 This field photo of a maize cross was shared by Cecilia Lara Mondragon from the University of Tübingen.
💡 Maize is about 95% wind-pollinated by pollen by neighboring plants. For controlled crosses, the female ear is covered, and pollen from a selected male plant is manually applied to the silks.
💡 Maize is about 95% wind-pollinated by pollen by neighboring plants. For controlled crosses, the female ear is covered, and pollen from a selected male plant is manually applied to the silks.
April 16, 2025 at 6:01 AM
🔬 This field photo of a maize cross was shared by Cecilia Lara Mondragon from the University of Tübingen.
💡 Maize is about 95% wind-pollinated by pollen by neighboring plants. For controlled crosses, the female ear is covered, and pollen from a selected male plant is manually applied to the silks.
💡 Maize is about 95% wind-pollinated by pollen by neighboring plants. For controlled crosses, the female ear is covered, and pollen from a selected male plant is manually applied to the silks.
🔬 Insights into the depths of a maize ovule primordium were provided by Martina Balboni from University of Hamburg.
💡 The chromosome axis protein DSY2 fused to YFP (in yellow) and the RFP labeled TUBULIN2 (in magenta) were visualized in a live cell imaging approach during maize meiosis.
💡 The chromosome axis protein DSY2 fused to YFP (in yellow) and the RFP labeled TUBULIN2 (in magenta) were visualized in a live cell imaging approach during maize meiosis.
April 9, 2025 at 9:16 AM
🔬 Insights into the depths of a maize ovule primordium were provided by Martina Balboni from University of Hamburg.
💡 The chromosome axis protein DSY2 fused to YFP (in yellow) and the RFP labeled TUBULIN2 (in magenta) were visualized in a live cell imaging approach during maize meiosis.
💡 The chromosome axis protein DSY2 fused to YFP (in yellow) and the RFP labeled TUBULIN2 (in magenta) were visualized in a live cell imaging approach during maize meiosis.
🔬 Scanning electron microscope picture of an immature maize tassel tip taken by Jia-Chi Ku (University Regensburg).
💡 Via several intermediate meristem stages (see picture) the tassel (male inflorescence of maize) with hundreds of male flowers, which contain the pollen producing anthers, is formed.
💡 Via several intermediate meristem stages (see picture) the tassel (male inflorescence of maize) with hundreds of male flowers, which contain the pollen producing anthers, is formed.
April 2, 2025 at 5:51 AM
🔬 Scanning electron microscope picture of an immature maize tassel tip taken by Jia-Chi Ku (University Regensburg).
💡 Via several intermediate meristem stages (see picture) the tassel (male inflorescence of maize) with hundreds of male flowers, which contain the pollen producing anthers, is formed.
💡 Via several intermediate meristem stages (see picture) the tassel (male inflorescence of maize) with hundreds of male flowers, which contain the pollen producing anthers, is formed.
🔬 Maize embryo at 8 days after pollination, prepared by Dr Guojing Jiang, University of Regensburg.
💡 Plant embryogenesis is the process by which embryos develop from the fertilized zygote, involving the establishment of apical-basal polarity, meristem initiation, and lateral organ formation.
💡 Plant embryogenesis is the process by which embryos develop from the fertilized zygote, involving the establishment of apical-basal polarity, meristem initiation, and lateral organ formation.
March 27, 2025 at 7:43 AM
🔬 Maize embryo at 8 days after pollination, prepared by Dr Guojing Jiang, University of Regensburg.
💡 Plant embryogenesis is the process by which embryos develop from the fertilized zygote, involving the establishment of apical-basal polarity, meristem initiation, and lateral organ formation.
💡 Plant embryogenesis is the process by which embryos develop from the fertilized zygote, involving the establishment of apical-basal polarity, meristem initiation, and lateral organ formation.
🔬 An image competition was organised at the Biologists @ 100 conference in Liverpool. The extraordinary image of the mature leaf epidermis of Brachypodium by Lea Berg @lbmountain.bsky.social is one of 15 finalists 🏆 in the Company of Biologist's @focalplane.bsky.social competition.👏
#Biologists100
#Biologists100
March 25, 2025 at 10:21 AM
🔬 An image competition was organised at the Biologists @ 100 conference in Liverpool. The extraordinary image of the mature leaf epidermis of Brachypodium by Lea Berg @lbmountain.bsky.social is one of 15 finalists 🏆 in the Company of Biologist's @focalplane.bsky.social competition.👏
#Biologists100
#Biologists100
🎬After months of preparation by Martina and Cecilia, the on-site filming of the CSCS video took place in Regensburg with the support of Guojing and PICT GmbH. 📽 Looking forward to share our research topic 🔬🧪 and why doing research on stem cells in plants 🌱 is important for the future.
March 24, 2025 at 11:10 AM
🎬After months of preparation by Martina and Cecilia, the on-site filming of the CSCS video took place in Regensburg with the support of Guojing and PICT GmbH. 📽 Looking forward to share our research topic 🔬🧪 and why doing research on stem cells in plants 🌱 is important for the future.
🔬 This colorful picture shows the expression of MADS box genes in a young barley spike. The mapping was carried out by Jan Maika from Heinrich Heine University Düsseldorf.
💡 MADS box genes code for transcription factors that regulate a.o. flower development, fruit formation and seed maturation.
💡 MADS box genes code for transcription factors that regulate a.o. flower development, fruit formation and seed maturation.
March 19, 2025 at 6:21 AM
🔬 This colorful picture shows the expression of MADS box genes in a young barley spike. The mapping was carried out by Jan Maika from Heinrich Heine University Düsseldorf.
💡 MADS box genes code for transcription factors that regulate a.o. flower development, fruit formation and seed maturation.
💡 MADS box genes code for transcription factors that regulate a.o. flower development, fruit formation and seed maturation.
🔬 The expression pattern of the epidermis marker gene HvOCL7a in a barley shoot apex was visualized by Dr. Thirulogachandar Venkatasubbu from Heinrich Heine University Düsseldorf.
💡 The shoot epidermis protects plants from dehydration and pathogens and maintains shoot stem cells.
💡 The shoot epidermis protects plants from dehydration and pathogens and maintains shoot stem cells.
March 13, 2025 at 11:13 AM
🔬 The expression pattern of the epidermis marker gene HvOCL7a in a barley shoot apex was visualized by Dr. Thirulogachandar Venkatasubbu from Heinrich Heine University Düsseldorf.
💡 The shoot epidermis protects plants from dehydration and pathogens and maintains shoot stem cells.
💡 The shoot epidermis protects plants from dehydration and pathogens and maintains shoot stem cells.
🔎 Our PI Frank Hochholdinger from @unibonn.bsky.social received the 2025 maize genetics cooperator award 🏆 at the 67th maize genetics conference together with Caroline Marcon for their work on BonnMu a public transposon-tagged maize population designed for genetics studies in maize.🎉
#MGM2025
#MGM2025
March 13, 2025 at 9:18 AM
🔎 Our PI Frank Hochholdinger from @unibonn.bsky.social received the 2025 maize genetics cooperator award 🏆 at the 67th maize genetics conference together with Caroline Marcon for their work on BonnMu a public transposon-tagged maize population designed for genetics studies in maize.🎉
#MGM2025
#MGM2025