4.7 Article

Limited allele-specific gene expression in highly polyploid sugarcane

Journal

GENOME RESEARCH
Volume 32, Issue 2, Pages 297-308

Publisher

COLD SPRING HARBOR LAB PRESS, PUBLICATIONS DEPT
DOI: 10.1101/gr.275904.121

Keywords

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Funding

  1. Center for Functional Genomics-ESALQ for its computational infrastructure
  2. CoordenacAo de Aperfeicoamento de Pessoal de Nivel Superior-Brasil (CAPES) [CAPES-PRINT 88887.466432/2019-00]
  3. CAPES-PRINT [88887.367965/2019-00]
  4. SAo Paulo Research Foundation (FAPESP) [2015/22993-7]
  5. Australian Research Council
  6. Sugar Research Australia

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This study examined the frequency and patterns of allele-specific expression (ASE) in the highly polyploid sugarcane genome. The analysis revealed that most genes were expressed in proportion to the frequency of the allele in the genome, with a lower level of ASE reflecting the recent origin of polyploid hybrid sugarcane. ASE was found to be more common in defense-response genes and processes related to cell wall biosynthesis.
Polyploidy is widespread in plants, allowing the different copies of genes to be expressed differently in a tissue-specific or developmentally specific way. This allele-specific expression (ASE) has been widely reported, but the proportion and nature of genes showing this characteristic have not been well defined. We now report an analysis of the frequency and patterns of ASE at the whole-genome level in the highly polyploid sugarcane genome. Very high depth whole-genome sequencing and RNA sequencing revealed strong correlations between allelic proportions in the genome and in expressed sequences. This level of sequencing allowed discrimination of each of the possible allele doses in this 12-ploid genome. Most genes were expressed in direct proportion to the frequency of the allele in the genome with examples of polymorphisms being found with every possible discrete level of dose from 1:11 for single-copy alleles to 12:0 for monomorphic sites. The rarer cases of ASE were more frequent in the expression of defense-response genes, as well as in some processes related to the biosynthesis of cell walls. ASE was more common in genes with variants that resulted in significant disruption of function. The low level of ASE may reflect the recent origin of polyploid hybrid sugarcane. Much of the ASE present can be attributed to strong selection for resistance to diseases in both nature and domestication.

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