Introducing CHiDO—A No Code Genomic Prediction software implementation for the characterization and integration of driven omics
Abstract Climate change represents a significant challenge to global food security by altering environmental conditions critical to crop growth. Plant breeders can play a key role in mitigating these challenges by developing more resilient crop varieties; however, these efforts require significant i...
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| Format: | Article |
| Language: | English |
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Wiley
2025-03-01
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| Series: | The Plant Genome |
| Online Access: | https://doi.org/10.1002/tpg2.20519 |
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| _version_ | 1849340246825631744 |
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| author | Francisco González Julián García‐Abadillo Diego Jarquín |
| author_facet | Francisco González Julián García‐Abadillo Diego Jarquín |
| author_sort | Francisco González |
| collection | DOAJ |
| description | Abstract Climate change represents a significant challenge to global food security by altering environmental conditions critical to crop growth. Plant breeders can play a key role in mitigating these challenges by developing more resilient crop varieties; however, these efforts require significant investments in resources and time. In response, it is imperative to use current technologies that assimilate large biological and environmental datasets into predictive models to accelerate the research, development, and release of new improved varieties that can be more resilient to the increasingly variable climatic conditions. Leveraging large and diverse datasets can improve the characterization of phenotypic responses due to environmental stimuli and genomic pulses. A better characterization of these signals holds the potential to enhance our ability to predict trait performance under changes in weather and/or soil conditions with high precision. This paper introduces characterization and integration of driven omics (CHiDO), an easy‐to‐use, no‐code platform designed to integrate diverse omics datasets and effectively model their interactions. With its flexibility to integrate and process datasets, CHiDO's intuitive interface allows users to explore historical data, formulate hypotheses, and optimize data collection strategies for future scenarios. The platform's mission emphasizes global accessibility, democratizing statistical solutions for situations where professional ability in data processing and data analysis is not available. |
| format | Article |
| id | doaj-art-a70653dbc82c4f23a74ffc4f888fd5e7 |
| institution | Kabale University |
| issn | 1940-3372 |
| language | English |
| publishDate | 2025-03-01 |
| publisher | Wiley |
| record_format | Article |
| series | The Plant Genome |
| spelling | doaj-art-a70653dbc82c4f23a74ffc4f888fd5e72025-08-20T03:43:57ZengWileyThe Plant Genome1940-33722025-03-01181n/an/a10.1002/tpg2.20519Introducing CHiDO—A No Code Genomic Prediction software implementation for the characterization and integration of driven omicsFrancisco González0Julián García‐Abadillo1Diego Jarquín2Agronomy Department University of Florida Gainesville Florida USAAgronomy Department University of Florida Gainesville Florida USAAgronomy Department University of Florida Gainesville Florida USAAbstract Climate change represents a significant challenge to global food security by altering environmental conditions critical to crop growth. Plant breeders can play a key role in mitigating these challenges by developing more resilient crop varieties; however, these efforts require significant investments in resources and time. In response, it is imperative to use current technologies that assimilate large biological and environmental datasets into predictive models to accelerate the research, development, and release of new improved varieties that can be more resilient to the increasingly variable climatic conditions. Leveraging large and diverse datasets can improve the characterization of phenotypic responses due to environmental stimuli and genomic pulses. A better characterization of these signals holds the potential to enhance our ability to predict trait performance under changes in weather and/or soil conditions with high precision. This paper introduces characterization and integration of driven omics (CHiDO), an easy‐to‐use, no‐code platform designed to integrate diverse omics datasets and effectively model their interactions. With its flexibility to integrate and process datasets, CHiDO's intuitive interface allows users to explore historical data, formulate hypotheses, and optimize data collection strategies for future scenarios. The platform's mission emphasizes global accessibility, democratizing statistical solutions for situations where professional ability in data processing and data analysis is not available.https://doi.org/10.1002/tpg2.20519 |
| spellingShingle | Francisco González Julián García‐Abadillo Diego Jarquín Introducing CHiDO—A No Code Genomic Prediction software implementation for the characterization and integration of driven omics The Plant Genome |
| title | Introducing CHiDO—A No Code Genomic Prediction software implementation for the characterization and integration of driven omics |
| title_full | Introducing CHiDO—A No Code Genomic Prediction software implementation for the characterization and integration of driven omics |
| title_fullStr | Introducing CHiDO—A No Code Genomic Prediction software implementation for the characterization and integration of driven omics |
| title_full_unstemmed | Introducing CHiDO—A No Code Genomic Prediction software implementation for the characterization and integration of driven omics |
| title_short | Introducing CHiDO—A No Code Genomic Prediction software implementation for the characterization and integration of driven omics |
| title_sort | introducing chido a no code genomic prediction software implementation for the characterization and integration of driven omics |
| url | https://doi.org/10.1002/tpg2.20519 |
| work_keys_str_mv | AT franciscogonzalez introducingchidoanocodegenomicpredictionsoftwareimplementationforthecharacterizationandintegrationofdrivenomics AT juliangarciaabadillo introducingchidoanocodegenomicpredictionsoftwareimplementationforthecharacterizationandintegrationofdrivenomics AT diegojarquin introducingchidoanocodegenomicpredictionsoftwareimplementationforthecharacterizationandintegrationofdrivenomics |