CRISPR-FISH: A CRISPR/Cas9-Based In Situ Labeling Method.

Fluorescence in situ hybridization (FISH) has been widely used to visualize target DNA sequences in fixed chromosome samples by denaturing the dsDNA to allow complementary probe hybridization, thus damaging the chromatin structure by harsh treatments. To overcome this limitation, a CRISPR/Cas9-based in situ labeling method was developed, termed CRISPR-FISH. This method is also known as RNA-guided endonuclease-in situ labeling (RGEN-ISL). Here we present different protocols for the application of CRISPR-FISH on acetic acid: ethanol or formaldehyde-fixed nuclei and chromosomes as well as tissue sections for labeling repetitive sequences in a range of plant species. In addition, methods on how immunostaining can be combined with CRISPR-FISH are provided.

Haploid induction by nanobody-targeted ubiquitin-proteasome-based degradation of EYFP-tagged CENH3 in Arabidopsis thaliana.

The generation of haploid plants accelerates the crop breeding process. One of the haploidization strategies is based on the genetic manipulation of endogenous centromere-specific histone 3 (CENH3). To extend the haploidization toolbox, we tested whether targeted in vivo degradation of CENH3 protein can be harnessed to generate haploids in Arabidopsis thaliana. We show that a recombinant anti-GFP nanobody fused to either heterologous F-box (NSlmb) or SPOP/BTB ligase proteins can recognize maternally derived enhanced yellow fluorescent protein (EYFP)-tagged CENH3 in planta and make it accessible for the ubiquitin-proteasome pathway. Outcrossing of the genomic CENH3-EYFP-complemented cenh3.1 mother with plants expressing the GFP-nanobody-targeted E3 ubiquitin ligase resulted in a haploid frequency of up to 7.6% in pooled F1 seeds. EYFP-CENH3 degradation occurred independently in embryo and endosperm cells. In reciprocal crosses, no haploid induction occurred. We propose that the uniparental degradation of EYFP-fused genomic CENH3 during early embryogenesis leads to a decrease in its level at centromeres and subsequently weakens the centromeres. The male-derived wild type CENH3 containing centromere outcompetes the CENH3-EYFP depleted centromere. Consequently, maternal chromosomes undergo elimination, resulting in haploids.

A simple flow cytometry-based assay to study global methylation levels in onion, a non-model species.

DNA methylation is an important epigenetic mark and global methylation dynamics regulate plant developmental processes. Even though genome sequencing technologies have made DNA methylation studies easier, it is difficult in non-model species where genome information is not available. Therefore in this study, we developed a simple assay for analysing global methylation levels in plants by washless immunolabelling of unfixed nuclei using flow cytometry. Onion leaf tissue was used as a model system, and mean fluorescence intensity due to anti-5- methyl cytosine (5-mC) antibodies were used as a measure of global methylation levels. Among three nuclear isolation buffers evaluated, the highest nuclear yield with the low background was obtained with LB01. To maintain a balance between high DNA fluorescence value and low coefficient of variation of DNA peaks, 45 min of hydrolysis with 0.2 N hydrochloric acid was used for chromatin denaturation resulting in six-fold increase in 5-mC fluorescence compared to control. This method was used successfully to detect 5-Azacytidine induced DNA hypomethylation in onion leaf tissues. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1007/s12298-021-01047-6.

Natural epialleles of Arabidopsis SUPERMAN display superwoman phenotypes.

Epimutations are heritable changes in gene function due to loss or gain of DNA cytosine methylation or chromatin modifications without changes in the DNA sequence. Only a few natural epimutations displaying discernible phenotypes are documented in plants. Here, we report natural epimutations in the cadastral gene, SUPERMAN(SUP), showing striking phenotypes despite normal transcription, discovered in a natural tetraploid, and subsequently in eleven diploid Arabidopsis genetic accessions. This natural lois lane(lol) epialleles behave as recessive mendelian alleles displaying a spectrum of silent to strong superwoman phenotypes affecting only the carpel whorl, in contrast to semi-dominant superman or supersex features manifested by induced epialleles which affect both stamen and carpel whorls. Despite its unknown origin, natural lol epialleles are subjected to the same epigenetic regulation as induced clk epialleles. The existence of superwoman epialleles in diverse wild populations is interpreted in the light of the evolution of unisexuality in plants.