Abstract
BackgroundThe dispensable maize (Zea mays L.) B chromosome is highly heterochromatic and widely believed to be devoid of functional genes. Although low-copy B chromosome causes no obvious phenotype variation, its existence might influence A genome gene expression. Previous studies suggested that B chromosomes are evolved from standard chromosomes; therefore, they might contain genic regions showing homology with A chromosome sequences.ResultsOur data suggested that maize B chromosome influences the A-genome transcription with stronger effect associated with an increase in copy number of B chromosome. In total 130 differently expressed genes were detected in comparison between with and without B chromosome lines. These differentially expressed genes are mainly involved in cell metabolism and nucleotide binding. Using Starter + B, we amplified ten B chromosome loci with high sequence similarity to A-genome genes. Fluorescence in situ hybridization (FISH) confirmed that at least four ~5 kb-sized genes are located on the B chromosome. In addition, through de novo assembly of the reads not unmapped to maize B73 reference genome together with PCR validation, we found three B-located LTR; in particular, one of them, the 3.2 kb comp75688, is expressed in a B-dosage dependent manner.ConclusionWe found that in the presence of maize B chromosome, the transcription of A genome genes was altered, with more impact by the increase of the B chromosome number. The B-located transcriptionally active genes showed high similarity to their A-genome homologues, and retrotransposons on B chromosome also have partial homologous to A genome sequences. Our data shed more lights on the genome structure and evolution of the maize B chromosome.Electronic supplementary materialThe online version of this article (doi:10.1186/s12870-016-0775-7) contains supplementary material, which is available to authorized users.
Highlights
The dispensable maize (Zea mays L.) B chromosome is highly heterochromatic and widely believed to be devoid of functional genes
Generation of RNA-seq libraries To investigate the transcription of maize B chromosome and the effect of B chromosome on maize A-genome expression, we generated RNA-seq libraries of 14-day young leaves from maize seedlings carrying varying number of B chromosome
We used fluorescence in situ hybridization (FISH) with maize B-specific repeats ZmBs as probe to determine the number of maize
Summary
The dispensable maize (Zea mays L.) B chromosome is highly heterochromatic and widely believed to be devoid of functional genes. Previous studies suggested that B chromosomes are evolved from standard chromosomes; they might contain genic regions showing homology with A chromosome sequences. The B chromosomes are supernumerary ones not necessary for the normal growth and development of an organism. They have been documented in a wide range of species from fungi to higher eukaryotes, including plants and animals [1]. The utilization of generation sequencing revealed that the B chromosomes of fish species Astatolilapia latifasciata and Astyanax paranae [14, 15] were originated from multiple As. Sequencing of rye B chromosome showed that the B chromosome was originated from chromosomes 3R and 7R; it accumulated large amounts of specific repetitive elements and insertions of organellar sequences during the independent evolution process [16]. It is still difficult to reveal the origin of B chromosome specific repetitive sequences
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