Genome-Wide Analysis of leafbladeless1-Regulated and Phased Small RNAs Underscores the Importance of the TAS3 ta-siRNA Pathway to Maize Development

Dotto, Marcela C.; Petsch, Katherine; Aukerman, Milo J.; Beatty, Mary; Hammell, Molly; Timmermans, Marja C.P.

doi:10.1371/journal.pgen.1004826

Cited by 57 publications

(76 citation statements)

References 69 publications

(142 reference statements)

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“…For instance, Antirrhinum phan mutants show clear adaxial-abaxial polarity phenotypes, as do tobacco and tomato plants harboring mutations in phan orthologs, but rough sheath2 from maize and as1 from Arabidopsis do not (Timmermans et al, 1999;Tsiantis et al, 1999;Byrne et al, 2000;Kim et al, 2003a;McHale and Koning, 2004). Likewise, mutations affecting tasiARF biogenesis condition a strong abaxializing phenotype in maize, rice and tomato, but cause only subtle polarity defects in Arabidopsis (Nogueira et al, 2007;Nagasaki et al, 2007;Chitwood et al, 2009;Douglas et al, 2010;Yifhar et al, 2012;Dotto et al, 2014). The latter difference may be explained, in part, by variation in the spatiotemporal expression of pathway components across species; tasiARF, for example, acts in the incipient primordium in maize and rice but during later stages in Arabidopsis leaf development (see Husbands et al, 2009).…”

Section: The Molecular Genetics Of Leaf Polaritymentioning

confidence: 99%

The Sussex signal: insights into leaf dorsiventrality

Kuhlemeier

Timmermans

2016

Development

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The differentiation of a leaf -from its inception as a semicircular bulge on the surface of the shoot apical meristem into a flattened structure with specialized upper and lower surfaces -is one of the most intensely studied processes in plant developmental biology. The large body of contemporary data on leaf dorsiventrality has its origin in the pioneering experiments of Ian Sussex, who carried out these studies as a PhD student in the early 1950s. Here, we review his original experiments in their historical context and describe our current understanding of this surprisingly complex process. Finally, we postulate possible candidates for the 'Sussex signal' -the elusive meristem-derived factor that first ignited interest in this important developmental problem.

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Section: The Molecular Genetics Of Leaf Polaritymentioning

confidence: 99%

The Sussex signal: insights into leaf dorsiventrality

Kuhlemeier

Timmermans

2016

Development

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“…Even in a single plant, the phenotype of individual leaves varies widely, ranging from having a near wild-type morphology, to occasionally appearing thread-like (Supplemental Figures 3A to 3E). As seen for lbl1 and rgd2 (Timmermans et al, 1998;Dotto et al, 2014), the threadlike dcl4 leaves lack adaxial features, such as macrohairs and bulliform cells, and show a radial symmetry in cross sections with photosynthetic and epidermal cells surrounding a central vascular bundle (Supplemental Figures 3F and 3I). However, this retains adaxial-abaxial polarity, as xylem forms at the adaxial pole and phloem at the abaxial pole.…”

Section: Resultsmentioning

confidence: 62%

“…A recent study revealed that the five maize ARF3 homologs (arf3a-e) are the only ta-siRNA targets with a role in shoot development (Dotto et al, 2014). A positive correlation between ARF3 dosage and phenotype severity has been observed in Arabidopsis and tomato (Fahlgren et al, 2006;Hunter et al, 2006;Yifhar et al, 2012), further supporting the idea that in comparison to other ta-siRNA biogenesis mutants, dcl4 affects expression of the arf3 targets to a lesser extent.…”

Section: Resultsmentioning

confidence: 90%

“…Such mutants are also severely stunted and fail to flower. The polarity phenotype conditioned by the rgd2-Ds1 allele, which carries a Ds transposon insertion in the essential PIWI domain, is even more severe and leads to early seedling lethality or occasionally a shootless phenotype (Figures 1C and 1E;Dotto et al, 2014). The less severe phenotype of lbl1-rgd1 mutants may be attributed to the fact that this allele still retains some activity.…”

Section: Resultsmentioning

confidence: 99%

“…To test this possibility directly, we examined the transcript levels for arf3a-e in dcl4 shoot apices. Considering that the arf3 targets are cleaved at one or both of their tasiR-ARF target sites (Dotto et al, 2014), their expression is predicted to increase upon loss of tasiR-ARF function. Indeed, arf3 transcript levels are increased in lbl1-rgd1 and rgd2-Ds1 shoot apices; likewise, arf3b, arf3c, and arf3e transcripts are upregulated approximately 2-fold in dcl4-3 mutants (Figure 2A).…”

Section: Resultsmentioning

confidence: 99%

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Novel DICER-LIKE1 siRNAs Bypass the Requirement for DICER-LIKE4 in Maize Development

et al. 2015

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Dicer enzymes function at the core of RNA silencing to defend against exogenous RNA or to regulate endogenous genes. Plant DICER-LIKE4 (DCL4) performs dual functions, acting in antiviral defense and in development via the biogenesis of transacting short-interfering RNAs (siRNAs) termed tasiR-ARFs. These small RNAs play an essential role in the grasses, spatially defining the expression domain of AUXIN RESPONSE FACTOR3 (ARF3) transcription factors. However, contrary to tasiRARFs' essential function in development, DCL4 proteins exhibit strong evidence of recurrent adaptation typical of host factors involved in antiviral immunity. Here, we address how DCL4 balances its role in development with pressures to diversify in response to viral attack. We show that, in contrast to other tasiR-ARF biogenesis mutants, dcl4 null alleles have an uncharacteristically mild phenotype, correlated with normal expression of select arf3 targets. Loss of DCL4 activity yields a class of 22-nucleotide tasiR-ARF variants associated with the processing of arf3 transcripts into 22-nucleotide secondary siRNAs by DCL1. Our findings reveal a DCL1-dependent siRNA pathway that bypasses the otherwise adverse developmental effects of mutations in DCL4. This pathway is predicted to have important implications for DCL4's role in antiviral defense by reducing the selective constraints on DCL4 and allowing it to diversify in response to viral suppressors.

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Several phased siRNA annotation methods can frequently misidentify 24 nucleotide siRNA‐dominated PHAS loci

2018

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Small RNA s regulate key physiological functions in land plants. Small RNA s can be divided into two categories: micro RNA s (mi RNA s) and short interfering RNA s (si RNA s); si RNA s are further subdivided into transposon/repetitive region‐localized heterochromatic si RNA s and phased si RNA s (phasi RNA s). Phasi RNA s are produced from the mi RNA ‐mediated cleavage of a Pol II RNA transcript; the mi RNA cleavage site provides a defined starting point from which phasi RNA s are produced in a distinctly phased pattern. 21–22 nucleotide (nt)‐dominated phasi RNA ‐producing loci ( PHAS ) are well represented in all land plants to date. In contrast, 24 nt‐dominated PHAS loci are known to be encoded only in monocots and are generally restricted to male reproductive tissues. Currently, only one mi RNA (miR2275) is known to trigger the production of these 24 nt‐dominated PHAS loci. In this study, we use stringent methodologies in order to examine whether or not 24 nt‐dominated PHAS loci also exist in Arabidopsis thaliana . We find that highly expressed heterochromatic si RNA s were consistently misidentified as 24 nt‐dominated PHAS loci using multiple PHAS ‐ detecting algorithms. We also find that MIR 2275 is not found in A. thaliana , and it seems to have been lost in the last common ancestor of Brassicales. Altogether, our research highlights the potential issues with widely used PHAS ‐ detecting algorithms which may lead to false positives when trying to annotate new PHAS , especially 24 nt‐dominated loci.

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Genome-Wide Analysis of leafbladeless1-Regulated and Phased Small RNAs Underscores the Importance of the TAS3 ta-siRNA Pathway to Maize Development

Cited by 57 publications

References 69 publications

The Sussex signal: insights into leaf dorsiventrality

The Sussex signal: insights into leaf dorsiventrality

Novel DICER-LIKE1 siRNAs Bypass the Requirement for DICER-LIKE4 in Maize Development

Several phased siRNA annotation methods can frequently misidentify 24 nucleotide siRNA‐dominated PHAS loci

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