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61.
Kvin Magne Shengbin Liu Sophie Massot Marion Dalmais Halima Morin Richard Sibout Abdelhafid Bendahmane Pascal Ratet 《The Plant journal : for cell and molecular biology》2020,103(2):645-659
In cultivated grasses, tillering, spike architecture and seed shattering represent major agronomical traits. In barley, maize and rice, the NOOT‐BOP‐COCH‐LIKE (NBCL) genes play important roles in development, especially in ligule development, tillering and flower identity. However, compared with dicots, the role of grass NBCL genes is underinvestigated. To better understand the role of grass NBCLs and to overcome any effects of domestication that might conceal their original functions, we studied TILLING nbcl mutants in the non‐domesticated grass Brachypodium distachyon. In B. distachyon, the NBCL genes BdUNICULME4 (CUL4) and BdLAXATUM‐A (LAXA) are orthologous, respectively, to the barley HvUniculme4 and HvLaxatum‐a, to the maize Zmtassels replace upper ears1 and Zmtassels replace upper ears2 and to the rice OsBLADE‐ON‐PETIOLE1 and OsBLADE‐ON‐PETIOLE2/3. In B. distachyon, our reverse genetics study shows that CUL4 is not essential for the establishment of the blade–sheath boundary but is necessary for the development of the ligule and auricles. We report that CUL4 also exerts a positive role in tillering and a negative role in spikelet meristem activity. On the other hand, we demonstrate that LAXA plays a negative role in tillering, positively participates in spikelet development and contributes to the control of floral organ number and identity. In this work, we functionally characterized two new NBCL genes in a context of non‐domesticated grass and highlighted original roles for grass NBCL genes that are related to important agronomical traits. 相似文献
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摘要 目的:建立延期再植牙大鼠模型并观察牙根不同部位预后特点,比较不同组织学分析方法的合理性,为相关临床、基础研究提供参考。方法:6周龄雄性SD大鼠10只,右侧上颌切牙脱位后延期再植,术后30 d 处死,分离上颌骨;利用micro CT从不同截面分析上颌切牙及牙周组织生理结构。切片后通过HE染色、MASSON染色、TRAP染色观察比较牙根不同部位愈合情况、破骨细胞分布情况。结果:大鼠切牙唇侧有釉质覆盖,腭侧牙骨质覆盖,且再植牙不同部位愈合情况、破骨细胞分布有差异,其牙根唇侧未见明显吸收,腭侧根中1/3相比根尖1/3和根颈1/3吸收范围更广、深度更深,破骨细胞分布数量更多,差异具有统计学意义(P<0.001),提出了腭侧中1/3作为牙根吸收组织学分析区域的合理性。结论:本实验比较了再植牙大鼠模型牙根不同部位的愈合情况,提出了一种较为合理的组织学分析方法,能客观反映再植牙愈合方式,为进一步研究再植牙愈合机理提供了较好的研究模型。 相似文献
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John A. Kloetzel Anne Aubusson-Fleury Maurice D. Butler Deben Banerjee Matteo Mozzicafreddo 《The Journal of eukaryotic microbiology》2021,68(3):e12850
In the hypotrich ciliate Euplotes, many individual basal bodies are grouped together in tightly packed clusters, forming ventral polykinetids. These groups of basal bodies (which produce compound ciliary organelles such as cirri and oral membranelles) are cross-linked into ordered arrays by scaffold structures known as “basal-body cages.” The major protein comprising Euplotes cages has been previously identified and termed “cagein.” Screening a E. aediculatus cDNA expression library with anti-cagein antisera identified a DNA insert containing most of a putative cagein gene; standard PCR techniques were used to complete the sequence. Probes designed from this gene identified a macronuclear “nanochromosome” of ca. 1.5 kb in Southern blots against whole-cell DNA. The protein derived from this sequence (463 residues) is predicted to be hydrophilic and highly charged; however, the native cage structures are highly resistant to salt/detergent extraction. This insolubility could be explained by the coiled-coil regions predicted to extend over much of the length of the derived cagein polypeptide. One frameshift sequence is found within the gene, as well as a short intron. BLAST searches find many ciliates with evident homologues to cagein within their derived genomic sequences. 相似文献
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Rui Diogo Bernard Wood 《Biological reviews of the Cambridge Philosophical Society》2013,88(4):988-1001
The present publication reviews the broader evolutionary implications of our long‐term study of primate musculature. It summarizes the implications of the study for our understanding of the use of myological characters for phylogenetic reconstruction, for assessing the importance of homoplasy and reversions in evolution, and for our understanding of Dollo's law, the notion of ‘direction’ in evolution, the common myth of human complexity, the tempo and mode of primate and human evolutionary history, adaptive radiations, the notion that ‘common’ equals ‘primitive’ and the influence of morphogenesis on the variability of head, neck, pectoral and upper limb muscles. Among other results our study shows that myological characters are useful for phylogenetic reconstruction. The results also stress the importance of homoplasy and of evolutionary reversions in morphological evolution, and they provide examples of reversions that violate Dollo's law due to the retention of ancestral developmental pathways. They also show that contrary to the idea of a ‘general molecular slow‐down of hominoids’ the rates of muscle evolution at the nodes leading to and within the hominoid clade are higher than those in most other primate clades. However, there is no evidence of a general trend or ‘directionality’ towards an increasing complexity during the evolutionary history of hominoids and of modern humans in particular, at least regarding the number of muscles or of muscle bundles. The rates of muscle evolution at the major euarchontan and primate nodes are different, but within each major primate clade (Strepsirrhini, Platyrrhini, Cercopithecidae and Hominoidea) the rates at the various nodes, and particularly at the nodes leading to the higher groups (i.e. those including more than one genus) are strikingly similar. Our results also support, in general terms, the assumption that ‘common is primitive’ and they lend some support for the ‘vertebrate‐specific model’ in the sense that during the divergent events that resulted in these four major primate clades there was more emphasis on postcranial changes than on cranial changes. Our study of primates does not, however, support suggestions that the distal structures of the upper limb are more prone to variation than the proximal ones, or that the topological origins of the upper limb muscles are more prone to evolutionary change than their insertions. 相似文献
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Barry Denholm 《Organogenesis》2013,9(1):40-54
The Malpighian tubule is the main organ for excretion and osmoregulation in most insects. During a short period of embryonic development the tubules of Drosophila are shaped, undergo differentiation and become precisely positioned in the body cavity, so they become fully functional at the time of larval hatching a few hours later. In this review I explore three developmental events on the path to physiological maturation. First, I examine the molecular and cellular mechanisms that generate organ shape, focusing on the process of cell intercalation that drives tubule elongation, the roles of the cytoskeleton, the extracellular matrix and how intercalation is coordinated at the tissue level. Second, I look at the genetic networks that control the physiological differentiation of tubule cells and consider how distinctive physiological domains in the tubule are patterned. Finally, I explore how the organ is positioned within the body cavity and consider the relationship between organ position and function. 相似文献