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1. Genome evolution and diversity of wild and cultivated potatoes

   https://doi.org/10.1038/s41586-022-04822-x  

   Tang, Dié; Jia, Yuxin; Zhang, Jinzhe; Li, Hongbo; Cheng, Lin; Wang, Pei; Bao, Zhigui; Liu, Zhihong; Feng, Shuangshuang; Zhu, Xijian; et al (June 2022, Nature)

   Abstract Potato ( Solanum tuberosum L.) is the world’s most important non-cereal food crop, and the vast majority of commercially grown cultivars are highly heterozygous tetraploids. Advances in diploid hybrid breeding based on true seeds have the potential to revolutionize future potato breeding and production 1–4 . So far, relatively few studies have examined the genome evolution and diversity of wild and cultivated landrace potatoes, which limits the application of their diversity in potato breeding. Here we assemble 44 high-quality diploid potato genomes from 24 wild and 20 cultivated accessions that are representative of Solanum section Petota , the tuber-bearing clade, as well as 2 genomes from the neighbouring section, Etuberosum . Extensive discordance of phylogenomic relationships suggests the complexity of potato evolution. We find that the potato genome substantially expanded its repertoire of disease-resistance genes when compared with closely related seed-propagated solanaceous crops, indicative of the effect of tuber-based propagation strategies on the evolution of the potato genome. We discover a transcription factor that determines tuber identity and interacts with the mobile tuberization inductive signal SP6A. We also identify 561,433 high-confidence structural variants and construct a map of large inversions, which provides insights for improving inbred lines and precluding potential linkage drag, as exemplified by a 5.8-Mb inversion that is associated with carotenoid content in tubers. This study will accelerate hybrid potato breeding and enrich our understanding of the evolution and biology of potato as a global staple food crop. 

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2. A k-mer-based bulked segregant analysis approach to map seed traits in unphased heterozygous potato genomes

   https://doi.org/10.1093/g3journal/jkae035  

   Sonsungsan, Pajaree; Nganga, Mwaura Livingstone; Lieberman, Meric C.; Amundson, Kirk R.; Stewart, Victoria; Plaimas, Kitiporn; Comai, Luca; Henry, Isabelle M.; Lipka, ed., A. (February 2024, G3: Genes, Genomes, Genetics)

   Abstract High-throughput sequencing-based methods for bulked segregant analysis (BSA) allow for the rapid identification of genetic markers associated with traits of interest. BSA studies have successfully identified qualitative (binary) and quantitative trait loci (QTLs) using QTL mapping. However, most require population structures that fit the models available and a reference genome. Instead, high-throughput short-read sequencing can be combined with BSA of k-mers (BSA-k-mer) to map traits that appear refractory to standard approaches. This method can be applied to any organism and is particularly useful for species with genomes diverged from the closest sequenced genome. It is also instrumental when dealing with highly heterozygous and potentially polyploid genomes without phased haplotype assemblies and for which a single haplotype can control a trait. Finally, it is flexible in terms of population structure. Here, we apply the BSA-k-mer method for the rapid identification of candidate regions related to seed spot and seed size in diploid potato. Using a mixture of F1 and F2 individuals from a cross between 2 highly heterozygous parents, candidate sequences were identified for each trait using the BSA-k-mer approach. Using parental reads, we were able to determine the parental origin of the loci. Finally, we mapped the identified k-mers to a closely related potato genome to validate the method and determine the genomic loci underlying these sequences. The location identified for the seed spot matches with previously identified loci associated with pigmentation in potato. The loci associated with seed size are novel. Both loci are relevant in future breeding toward true seeds in potato. 

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3. Toward Platform Capitalism in Agrobiodiversity? Examining the Potential Challenges of E‐Commerce Integration in Agrobiodiversity Apps

   https://doi.org/10.1002/sea2.70006  

   Zárate_Vásquez, Julio_Sebastián; Delborne, Jason_A (June 2025, Economic Anthropology)

   ABSTRACT In recent years, citizen‐driven initiatives have significantly transformed agrobiodiversity monitoring, exemplified by platforms like Wiki Papa and VarScout, which support Andean potato conservation in Peru. Wiki Papa serves as a curated repository documenting local potato varieties, while VarScout enables the collection of on‐the‐ground potato data from farming fields and Andean households. These platforms integrate citizen science with conservation. Recently, the potential inclusion of e‐commerce features in Wiki Papa aims to connect small‐scale potato farmers directly with urban consumers, promoting economic growth. However, this integration highlights a paradox: While commercialization can incentivize potato farmers to conserve many local potato varieties, it also introduces challenges, such as market‐driven standardization and increased production costs. This study explores the complex interplay between potato commercialization and agrobiodiversity conservation through qualitative research, including interviews and participant observation with key stakeholders. Findings reveal that integrating e‐commerce features into digital platforms presents logistical and sociotechnical challenges but also distracts users from discussing data governance issues. Insights from app developers, farmers, and conservationists illuminate the tensions between economic interests and preservation of food heritage. By examining the potential integration of e‐commerce into Wiki Papa, this study contributes to discussions on the role of platform science in conservation and niche markets. 

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4. SpudDB: a database for accessing potato genomic data

   https://doi.org/10.1093/genetics/iyae205  

   Hamilton, John P; Brose, Julia; Buell, C Robin (December 2024, GENETICS)

   Harris, T (Ed.)

   Abstract Potato is a key food crop with a complex, polyploid genome. Advancements in sequencing technologies coupled with improvements in genome assembly algorithms have enabled generation of phased, chromosome-scale genome assemblies for cultivated tetraploid potato. The SpudDB database houses potato genome sequence and annotation, with the doubled monoploid DM 1–3 516 R44 (hereafter DM) genome serving as the reference genome and haplotype. Diverse annotation data types for DM genes are provided through a suite of Gene Report Pages including gene expression profiles across 438 potato samples. To further annotate potato genes based on expression, 65 gene co-expression modules were constructed that permit the identification of tightly co-regulated genes within DM across development and responses to wounding, abiotic stress, and biotic stress. Genome browser views of DM and 28 other potato genomes are provided along with a download page for genome sequence and annotation. To link syntenic genes within and between haplotypes, syntelogs were identified across 25 cultivated potato genomes. Through access to potato genome sequences and associated annotations, SpudDB can enable potato biologists, geneticists, and breeders to continue to improve this key food crop. 

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5. PL-4 (CIP596131.4): an Improved Potato Haploid Inducer

   https://doi.org/10.1007/s12230-021-09839-y  

   Ordoñez, Benny; Santayana, Monica; Aponte, Mariela; Henry, Isabelle M.; Comai, Luca; Eyzaguirre, Raúl; Lindqvist-Kreuze, Hannele; Bonierbale, Merideth (July 2021, American Journal of Potato Research)

   Abstract Dihaploid production from elite tetraploid cultivars is key to both traditional and novel breeding approaches that seek to simplify potato genetics. For this purpose, efficient and widely compatible haploid inducers (HIs) are needed. We compared PL-4, a new HI developed at the International Potato Center, to known HIs IvP101 and IvP35. By pollination of elite tetraploid breeding lines, we showed that PL-4 performed significantly better and had a homogeneous response regardless of the genetic background of the pistillate parents, on the most important efficiency traits—number of dihaploids per 100 fruits and haploid induction rate. Moreover, PL-4 exhibited a reduced proportion of hybrid seeds, a convenient trait for efficient screening. In this context, we recommend PL-4 as an enhanced HI for the potato breeding community. 

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