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921.
Yi‐zhou Tan Dong‐dong Fei Xiao‐ning He Ji‐min Dai Rong‐chen Xu Xin‐yue Xu Jun‐jie Wu Bei Li 《Cell proliferation》2019,52(4)
L‐type voltage‐gated calcium ion channels (L‐VGCCs) have been demonstrated to be the mediator of several significant intracellular activities in excitable cells, such as neurons, chromaffin cells and myocytes. Recently, an increasing number of studies have investigated the function of L‐VGCCs in non‐excitable cells, particularly stem cells. However, there appear to be no systematic reviews of the relationship between L‐VGCCs and stem cells, and filling this gap is prescient considering the contribution of L‐VGCCs to the proliferation and differentiation of several types of stem cells. This review will discuss the possible involvement of L‐VGCCs in stem cells, mainly focusing on osteogenesis mediated by mesenchymal stem cells (MSCs) from different tissues and neurogenesis mediated by neural stem/progenitor cells (NSCs). Additionally, advanced applications that use these channels as the target for tissue engineering, which may offer the hope of tissue regeneration in the future, will also be explored. 相似文献
922.
923.
Barbara Tllez‐Robledo Concepcion Manzano Angela Saez Sara Navarro‐Neila Javier Silva‐Navas Laura de Lorenzo Mary‐Paz Gonzlez‐García Ren Toribio Arthur G. Hunt Roberto Baigorri Ilda Casimiro Siobhan M. Brady M. Mar Castellano J. Carlos del Pozo 《The Plant journal : for cell and molecular biology》2019,99(6):1203-1219
924.
925.
Rebecca L. Hansen Hongqing Guo Yanhai Yin Young Jin Lee 《The Plant journal : for cell and molecular biology》2019,97(2):341-351
The FERONIA (FER) signaling pathway is known to have diverse roles in Arabidopsis thaliana, such as growth, reproduction, and defense, but how this receptor kinase is involved in various biological processes is not well established. In this work, we applied multiple mass spectrometry techniques to identify metabolites involved in the FER signaling pathway and to understand their biological roles. A direct infusion Fourier transform ion cyclotron resonance (FT‐ICR)‐MS approach was used for initial screening of wild‐type and feronia (fer) mutant plant extracts, and Arabidopsides were found to be significantly enriched in the mutant. As Arabidopsides are known to be induced by wounding, further experiments on wounded and non‐wounded leaf samples were carried out to investigate these oxylipins as well as related phytohormones using a quadrupole‐time‐of‐flight (Q‐TOF) MS by direct injection and LC‐MS/MS. In a root growth bioassay with Arabidopside A isolated from fer mutants, the wild‐type showed significant root growth inhibition compared with the fer mutant. Our results therefore implicated Arabidopsides, and Arabidopside A specifically, in FER functions and/or signaling. Finally, matrix‐assisted laser desorption/ionization MS imaging (MALDI‐MSI) was used to visualize the localization of Arabidopsides, and we confirmed that Arabidopsides are highly abundant at wounding sites in both wild‐type and fer mutant leaves. More significantly, five micron high‐spatial resolution MALDI‐MSI revealed that Arabidopsides are localized to the chloroplasts where many stress signaling molecules are made. 相似文献
926.
MyROOT: a method and software for the semiautomatic measurement of primary root length in Arabidopsis seedlings 总被引:1,自引:0,他引:1
Isabel Betegn‐Putze Alejandro Gonzlez Xavier Sevillano David Blasco‐Escmez Ana I. Cao‐Delgado 《The Plant journal : for cell and molecular biology》2019,98(6):1145-1156
Root analysis is essential for both academic and agricultural research. Despite the great advances in root phenotyping and imaging, calculating root length is still performed manually and involves considerable amounts of labor and time. To overcome these limitations, we developed MyROOT, a software for the semiautomatic quantification of root growth of seedlings growing directly on agar plates. Our method automatically determines the scale from the image of the plate, and subsequently measures the root length of the individual plants. To this aim, MyROOT combines a bottom‐up root tracking approach with a hypocotyl detection algorithm. At the same time as providing accurate root measurements, MyROOT also significantly minimizes the user intervention required during the process. Using Arabidopsis, we tested MyROOT with seedlings from different growth stages and experimental conditions. When comparing the data obtained from this software with that of manual root measurements, we found a high correlation between both methods (R2 = 0.997). When compared with previous developed software with similar features (BRAT and EZ‐Rhizo), MyROOT offered an improved accuracy for root length measurements. Therefore, MyROOT will be of great use to the plant science community by permitting high‐throughput root length measurements while saving both labor and time. 相似文献
927.
928.
929.
Frank Qasim Machin Malin Beckers Xin Tian Alice Fairnie Teri Cheng Wolf‐Rüdiger Scheible Peter Doerner 《The Plant journal : for cell and molecular biology》2019,98(1):153-164
Cell‐, tissue‐ or organ‐specific inducible expression systems are powerful tools for functional analysis of changes to the pattern, level or timing of gene expression. However, plant researchers lack standardised reagents that promote reproducibility across the community. Here, we report the development and functional testing of a Gateway‐based system for quantitatively, spatially and temporally controlling inducible gene expression in Arabidopsis that overcomes several drawbacks of the legacy systems. We used this modular driver/effector system with intrinsic reporting of spatio‐temporal promoter activity to generate 18 well‐characterised homozygous transformed lines showing the expected expression patterns specific for the major cell types of the Arabidopsis root; seed and plasmid vectors are available through the Arabidopsis stock centre. The system's tight regulation was validated by assessing the effects of diphtheria toxin A chain expression. We assessed the utility of Production of Anthocyanin Pigment 1 (PAP1) as an encoded effector mediating cell‐autonomous marks. With this shared resource of characterised reference driver lines, which can be expanded with additional promoters and the use of other fluorescent proteins, we aim to contribute towards enhancing reproducibility of qualitative and quantitative analyses. 相似文献
930.
CONSTANS delays Arabidopsis flowering under short days 总被引:1,自引:0,他引:1
Laura Luccioni Martín Krzymuski Maximiliano Snchez‐Lamas Elizabeth Karayekov Pablo D. Cerdn Jorge J. Casal 《The Plant journal : for cell and molecular biology》2019,97(5):923-932
Long days (LD) promote flowering of Arabidopsis thaliana compared with short days (SD) by activating the photoperiodic pathway. Here we show that growth under very‐SD (3 h) or darkness (on sucrose) also accelerates flowering on a biological scale, indicating that SD actively repress flowering compared with very‐SD. CONSTANS (CO) repressed flowering under SD, and the early flowering of co under SD required FLOWERING LOCUS T (FT). FT was expressed at a basal level in the leaves under SD, but these levels were not enhanced in co. This indicates that the action of CO in A. thaliana is not the mirror image of the action of its homologue in rice. In the apex, CO enhanced the expression of TERMINAL FLOWER 1 (TFL1) around the time when FT expression is important to promote flowering. Under SD, the tfl1 mutation was epistatic to co and in turn ft was epistatic to tfl1. These observations are consistent with the long‐standing but not demonstrated model where CO can inhibit FT induction of flowering by affecting TFL1 expression. 相似文献