The genetic basis of inbreeding depression in potato

Chunzhi Zhang^#^{1

2

3}, Pei Wang^#¹, Die Tang^#², Zhongmin Yang⁴, Fei Lu⁵, Jianjian Qi⁶, Nilesh R Tawari⁷, Yi Shang¹, Canhui Li¹, Sanwen Huang^{8

9}

Affiliations

¹ The AGISCAAS-YNNU Joint Academy of Potato Sciences, Yunnan Normal University, Kunming, China.
² Genome Analysis Laboratory of the Ministry of Agriculture, Agricultural Genomics Institute at Shenzhen, Chinese Academy of Agricultural Sciences, Shenzhen, China.
³ Key Laboratory of Biology and Genetic Improvement of Horticultural Crops of the Ministry of Agriculture, Sino-Dutch Joint Laboratory of Horticultural Genomics, Institute of Vegetables and Flowers, Chinese Academy of Agricultural Sciences, Beijing, China.
⁴ College of Horticulture, Northwest Agriculture and Forest University, Yangling, China.
⁵ State Key Laboratory of Plant Cell and Chromosome Engineering, Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, Beijing, China.
⁶ Inner Mongolia Potato Engineering and Technology Research Centre, Inner Mongolia University, Hohhot, China.
⁷ Computational and Systems Biology, Genome Institute of Singapore, Singapore, Singapore.
⁸ Genome Analysis Laboratory of the Ministry of Agriculture, Agricultural Genomics Institute at Shenzhen, Chinese Academy of Agricultural Sciences, Shenzhen, China. huangsanwen@caas.cn.
⁹ Key Laboratory of Biology and Genetic Improvement of Horticultural Crops of the Ministry of Agriculture, Sino-Dutch Joint Laboratory of Horticultural Genomics, Institute of Vegetables and Flowers, Chinese Academy of Agricultural Sciences, Beijing, China. huangsanwen@caas.cn.

^# Contributed equally.

PMID: 30643248
DOI: 10.1038/s41588-018-0319-1

The genetic basis of inbreeding depression in potato

Chunzhi Zhang et al. Nat Genet. 2019 Mar.

. 2019 Mar;51(3):374-378.

doi: 10.1038/s41588-018-0319-1. Epub 2019 Jan 14.

Authors

Chunzhi Zhang^#^{1

2

3}, Pei Wang^#¹, Die Tang^#², Zhongmin Yang⁴, Fei Lu⁵, Jianjian Qi⁶, Nilesh R Tawari⁷, Yi Shang¹, Canhui Li¹, Sanwen Huang^{8

9}

Affiliations

¹ The AGISCAAS-YNNU Joint Academy of Potato Sciences, Yunnan Normal University, Kunming, China.
² Genome Analysis Laboratory of the Ministry of Agriculture, Agricultural Genomics Institute at Shenzhen, Chinese Academy of Agricultural Sciences, Shenzhen, China.
³ Key Laboratory of Biology and Genetic Improvement of Horticultural Crops of the Ministry of Agriculture, Sino-Dutch Joint Laboratory of Horticultural Genomics, Institute of Vegetables and Flowers, Chinese Academy of Agricultural Sciences, Beijing, China.
⁴ College of Horticulture, Northwest Agriculture and Forest University, Yangling, China.
⁵ State Key Laboratory of Plant Cell and Chromosome Engineering, Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, Beijing, China.
⁶ Inner Mongolia Potato Engineering and Technology Research Centre, Inner Mongolia University, Hohhot, China.
⁷ Computational and Systems Biology, Genome Institute of Singapore, Singapore, Singapore.
⁸ Genome Analysis Laboratory of the Ministry of Agriculture, Agricultural Genomics Institute at Shenzhen, Chinese Academy of Agricultural Sciences, Shenzhen, China. huangsanwen@caas.cn.
⁹ Key Laboratory of Biology and Genetic Improvement of Horticultural Crops of the Ministry of Agriculture, Sino-Dutch Joint Laboratory of Horticultural Genomics, Institute of Vegetables and Flowers, Chinese Academy of Agricultural Sciences, Beijing, China. huangsanwen@caas.cn.

^# Contributed equally.

PMID: 30643248
DOI: 10.1038/s41588-018-0319-1

Abstract

Inbreeding depression confers reduced fitness among the offspring of genetic relatives. As a clonally propagated crop, potato (Solanum tuberosum L.) suffers from severe inbreeding depression; however, the genetic basis of inbreeding depression in potato is largely unknown. To gain insight into inbreeding depression in potato, we evaluated the mutation burden in 151 diploid potatoes and obtained 344,831 predicted deleterious substitutions. The deleterious mutations in potato are enriched in the pericentromeric regions and are line specific. Using three F₂ populations, we identified 15 genomic regions with severe segregation distortions due to selection at the gametic and zygotic stages. Most of the deleterious recessive alleles affecting survival and growth vigor were located in regions with high recombination rates. One of these deleterious alleles is derived from a rare mutation that disrupts a gene required for embryo development. This study provides the basis for genome design of potato inbred lines.

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Comment in

Understanding Genetic Load in Potato for Hybrid Diploid Breeding.
Bachem CWB, van Eck HJ, de Vries ME. Bachem CWB, et al. Mol Plant. 2019 Jul 1;12(7):896-898. doi: 10.1016/j.molp.2019.05.015. Epub 2019 Jun 14. Mol Plant. 2019. PMID: 31248722 No abstract available.

References

1. Darwin, C. The Effects of Cross and Self Fertilization in the Vegetable Kingdom (John Murray, London, 1876). - DOI
1. Ramu, P. et al. Cassava haplotype map highlights fixation of deleterious mutations during clonal propagation. Nat. Genet. 49, 959–963 (2017). - DOI
1. Vreugdenhil, D. et al. Potato Biology and Biotechnology: Advances and Perspectives (Elsevier Science, Amsterdam, 2007).
1. Lindhout, P. et al. Towards F₁ hybrid seed potato breeding. Potato Res. 54, 301–312 (2011). - DOI
1. Li, Y., Li, G., Li, C., Qu, D. & Huang, S. Prospects of diploid hybrid breeding in potato. Chin. Potato 27, 96–99 (2013).

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The genetic basis of inbreeding depression in potato

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The genetic basis of inbreeding depression in potato

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