Fredy Altpeter
Professor of Molecular Genetics and Biotechnology, University of Florida
Links
- Google Scholar
- Dr. Altpeter's CV
- Sweet success: CABBI demonstrates first precision breeding of sugarcane with CRISPR-Cas9
- Feedstock Production
- 2020 SIVB Distinguished Scientist Award
- UFRF Professors
- UF|IFAS Dr. Fredy Altpeter
Recent Publications
- Rapid and Efficient in planta Genome Editing in Sorghum Using Foxtail Mosaic Virus-mediated sgRNA Delivery
- Comparison of Genotyping Assays for Detection of Targeted CRISPR/Cas Mutagenesis in Highly Polyploid Sugarcane
- Tonoplast Sugar Transporters as Key Drivers of Sugar Accumulation, a Case in Sugarcane
- Greater Aperture Counteracts Effects of Reduced Stomatal Density on WUE: A Case Study on Sugarcane and Meta-Analysis
- The Extent of Multiallelic, Co-Editing of LIGULELESS1 in Highly Polyploid Sugarcane Tunes Leaf Inclination Angle and Enables Selection of the Ideotype for Biomass Yield
- Sustainable Co-Production of Plant Lipids and Cellulosic Sugars from Transgenic Energycane at an Industrially Relevant Scale: A Proof of Concept for Alternative Feedstocks
- Triacylglycerol, Total Fatty Acid, and Biomass Accumulation of Metabolically Engineered Energycane Grown under Field Conditions Confirms its Potential as Feedstock for Drop-in Fuel Production
- Intron-Mediated Enhancement of Diacylglycerol Acyltransferase1 Expression in Energycane Promotes a Step Change for Lipid Accumulation in Vegetative Tissues
- dCas9-3xSRDX-Mediated Transcriptional Repression in Sugarcane
- Lipid-Enhanced Oilcane Does Not Impact Soil Carbon Dynamics Compared with Wild-Type Sugarcane
- Microbiome Differences in Sugarcane and Metabolically Engineered Oilcane Accessions and Their Implications for Bioenergy Production
- Design of a High-Rate Wastewater Treatment Process for Energy and Water Recovery at Biorefineries
- Bioprocessing, Recovery, and Mass Balance of Vegetative Lipids from Metabolically Engineered ‘Oilcane’ Demonstrates Its Potential as an Alternative Feedstock for Drop-In Fuel Production
- Targeted Mutagenesis with Sequence-Specific Nucleases for Accelerated Improvement of Polyploid Crops: Progress, Challenges, and Prospects
- CRISPR/Cas-Mediated Genome Editing in Sorghum — Recent progress, Challenges, and Prospects
- CRISPR/Cas9 Mediated Targeted Mutagenesis of LIGULELESS-1 in Sorghum Provides a Rapidly Scorable Phenotype by Altering Leaf Inclination Angle
- CRISPR/Cas9-Mediated Multi-Allelic Gene Targeting in Sugarcane Confers Herbicide Tolerance
- Multiallelic, Targeted Mutagenesis of Magnesium Chelatase with CRISPR-Cas9 Provides a Rapidly Scorable Phenotype in Highly Polyploid Sugarcane
- Towards Oilcane: Engineering Hyperaccumulation of Triacylglycerol into Sugarcane Stems
- Generation of a Selectable Marker Free, Highly Expressed Single Copy Locus as Landing Pad for Transgene Stacking in Sugarcane
Recent Datasets
- Greater Aperture Counteracts Effects of Reduced Stomatal Density on WUE: A Case Study on Sugarcane and Meta-Analysis
- Triacylglycerol, Total Fatty Acid, and Biomass Accumulation of Metabolically Engineered Energycane Grown Under Field Conditions Confirms its Potential as Feedstock for Drop-in Fuel Production
- Intron-Mediated Enhancement of DIACYLGLYCEROL ACYLTRANSFERASE1 Expression in Energycane Promotes a Step Change for Lipid Accumulation in Vegetative Tissues
- Lipid-Enhanced Oilcane Does Not Impact Soil Carbon Dynamics Compared with Wild-Type Sugarcane
- Saccharum Liguleless1 Mutant Line Sequencing
- Microbiome Differences in Sugarcane and Metabolically Engineered Oilcane Accessions and Their Implications for Bioenergy Production
- Bioprocessing, Recovery, and Mass Balance of Vegetative Lipids from Metabolically Engineered ‘Oilcane’ Demonstrates Its Potential as an Alternative Feedstock for Drop-In Fuel Production
- Multiallelic, Targeted Mutagenesis of Magnesium Chelatase with CRISPR-Cas9 Provides a Rapidly Scorable Phenotype in Highly Polyploid Sugarcane
- Generation of a Selectable Marker Free, Highly Expressed Single Copy Locus as Landing Pad for Transgene Stacking in Sugarcane