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101.
秤锤树属与长果安息香属植物的地理分布及其濒危现状 总被引:10,自引:0,他引:10
秤锤树属(SinojackiaHu)和长果安息香属(ChangiostyraxC.T.Chen)是安息香科的少种属,这两属在我国共记录有7个种。本文通过野外调查,分析了中国这两属植物的地理分布、濒危现状及其迁地保护状况。结果表明:秤锤树属植物地理分布较广,但是每个物种的居群数量和居群大小均很小。其中秤锤树(Sinojackiaxylocarpa)和狭果秤锤树(S.rehderiana)已经在其模式标本产地灭绝;棱果秤锤树(S.henryi)在过去的近70年内没有采到过标本,该物种可能存在同物异名现象或已经灭绝;细果秤锤树(S.microcarpa)由于人为破坏严重,居群大小急剧下降;肉果秤锤树(S.sarcocarpa)和怀化秤锤树(S.oblongicarpa)呈零星分布且个体数量很少,处于极濒危状态。另外本次调查发现秤锤树属的一个新的分类群(待鉴定种)。秤锤树属的大多数种和长果安息香属植物的居群更新能力差:虽然结果率较高,但是结籽率较低;坚硬的内果皮阻碍了种子的萌发,这是其居群更新的最大障碍;另外人为破坏对其居群更新的影响也较大。作者建议应该把秤锤树属的所有物种和长果安息香属植物都纳入保护的范围并讨论了这两属植物的保护策略。 相似文献
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103.
监测自然保护地生态承载力,对了解其时空分异规律及可持续发展有着重要意义。金石滩地质遗迹保护区是国家公园和风景名胜区的结合区域,是生态保护与地区发展间矛盾冲突所在之处,是多身份自然保护地的典型代表区域。以1998、2003、2007、2012、2015、2018年遥感影像和土地利用数据为基础,选取金石滩这个兼具保护与开发多种功能的自然保护地为研究区域,从弹性生态支撑系统、资源环境供容系统、社会经济协调系统3方面构建指标体系,运用模糊综合评价模型研究金石滩生态承载力的时空分异规律。结果表明:(1)在3个准则层中,弹性生态支撑力和资源环境供容力呈现出持续降低的剧烈下降趋势,社会经济协调力呈现先降后升、之后平稳发展的趋势。(2)金石滩生态承载力整体来看从强承载力演变为较弱承载力,1998-2018年自0.7572变为0.2940,近30年来承载力等级降低。(3)海陆生态承载力完全不同,陆地为强、较强承载力,海岸为弱、较弱承载力,自北部陆地向南部海岸逐渐减弱呈现极其不平衡的海陆空间分异。通过对金石滩1998-2018年生态承载力分析,能够反映区域的生态承载力变化情况,可为其他自然保护地的生态承载力评估和可持续发展提供参考。 相似文献
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105.
Renying Wang Peijing Zhang Jingjing Wang Lifeng Ma Weigao E Shengbao Suo Mengmeng Jiang Jiaqi Li Haide Chen Huiyu Sun Lijiang Fei Ziming Zhou Yincong Zhou Yao Chen Weiqi Zhang Xinru Wang Yuqing Mei Zhongyi Sun Chengxuan Yu Jikai Shao Yuting Fu Yanyu Xiao Fang Ye Xing Fang Hanyu Wu Qile Guo Xiunan Fang Xia Li Xianzhi Gao Dan Wang Peng-Fei Xu Rui Zeng Gang Xu Lijun Zhu Lie Wang Jing Qu Dan Zhang Hongwei Ouyang He Huang Ming Chen Shyh-Chang NG Guang-Hui Liu Guo-Cheng Yuan Guoji Guo Xiaoping Han 《Nucleic acids research》2023,51(2):501
Individual cells are basic units of life. Despite extensive efforts to characterize the cellular heterogeneity of different organisms, cross-species comparisons of landscape dynamics have not been achieved. Here, we applied single-cell RNA sequencing (scRNA-seq) to map organism-level cell landscapes at multiple life stages for mice, zebrafish and Drosophila. By integrating the comprehensive dataset of > 2.6 million single cells, we constructed a cross-species cell landscape and identified signatures and common pathways that changed throughout the life span. We identified structural inflammation and mitochondrial dysfunction as the most common hallmarks of organism aging, and found that pharmacological activation of mitochondrial metabolism alleviated aging phenotypes in mice. The cross-species cell landscape with other published datasets were stored in an integrated online portal—Cell Landscape. Our work provides a valuable resource for studying lineage development, maturation and aging. 相似文献
106.
Rongjie Cheng Fanying Li Maolei Zhang Xin Xia Jianzhuang Wu Xinya Gao Huangkai Zhou Zhi Zhang Nunu Huang Xuesong Yang Yaliang Zhang Shunli Shen Tiebang Kang Zexian Liu Feizhe Xiao Hongwei Yao Jianbo Xu Chao Yan Nu Zhang 《Cell research》2023,33(1):30
Mutations of the RAS oncogene are found in around 30% of all human cancers yet direct targeting of RAS is still considered clinically impractical except for the KRASG12C mutant. Here we report that RAS-ON (RASON), a novel protein encoded by the long intergenic non-protein coding RNA 00673 (LINC00673), is a positive regulator of oncogenic RAS signaling. RASON is aberrantly overexpressed in pancreatic ductal adenocarcinoma (PDAC) patients, and it promotes proliferation of human PDAC cell lines in vitro and tumor growth in vivo. CRISPR/Cas9-mediated knockout of Rason in mouse embryonic fibroblasts inhibits KRAS-mediated tumor transformation. Genetic deletion of Rason abolishes oncogenic KRAS-driven pancreatic and lung cancer tumorigenesis in LSL-KrasG12D; Trp53R172H/+ mice. Mechanistically, RASON directly binds to KRASG12D/V and inhibits both intrinsic and GTPase activating protein (GAP)-mediated GTP hydrolysis, thus sustaining KRASG12D/V in the GTP-bound hyperactive state. Therapeutically, deprivation of RASON sensitizes KRAS mutant pancreatic cancer cells and patient-derived organoids to EGFR inhibitors. Our findings identify RASON as a critical regulator of oncogenic KRAS signaling and a promising therapeutic target for KRAS mutant cancers.Subject terms: Gastrointestinal cancer, Cancer therapy 相似文献
107.
Fei Yao Jingjie Peng Endong Zhang Dan Ji Zhaolin Gao Yixiong Tang Xueyan Yao Xiaobo Xia 《Cell death and differentiation》2023,30(1):69
Glaucoma can result in retinal ganglion cell (RGC) death and permanently damaged vision. Pathologically high intraocular pressure (ph-IOP) is the leading cause of damaged vision during glaucoma; however, controlling ph-IOP alone does not entirely prevent the loss of glaucomatous RGCs, and the underlying mechanism remains elusive. In this study, we reported an increase in ferric iron in patients with acute primary angle-closure glaucoma (the most typical glaucoma with ph-IOP damage) compared with the average population by analyzing free iron levels in peripheral serum. Thus, iron metabolism might be involved in regulating the injury of RGCs under ph-IOP. In vitro and in vivo studies confirmed that ph-IOP led to abnormal accumulation of ferrous iron in cells and retinas at 1–8 h post-injury and elevation of ferric iron in serum at 8 h post-injury. Nuclear receptor coactivator 4 (NCOA4)-mediated degradation of ferritin heavy polypeptide 1(FTH1) is essential to disrupt iron metabolism in the retina after ph-IOP injury. Furthermore, knockdown of Ncoa4 in vivo inhibited FTH1 degradation and reduced the retinal ferrous iron level. Elevated ferrous iron induced by ph-IOP led to a marked accumulation of pro-ferroptotic factors (lipid peroxidation and acyl CoA synthetase long-chain family member 4) and a depletion of anti-ferroptotic factors (glutathione, glutathione peroxidase 4, and nicotinamide adenine dinucleotide phosphate). These biochemical changes resulted in RGC ferroptosis. Deferiprone can pass through the blood-retinal barrier after oral administration and chelated abnormally elevated ferrous iron in the retina after ph-IOP injury, thus inhibiting RGC ferroptosis and protecting visual function. In conclusion, this study revealed the role of NCOA4-FTH1-mediated disturbance of iron metabolism and ferroptosis in RGCs during glaucoma. We demonstrate the protective effect of Deferiprone on RGCs via inhibition of ferroptosis, providing a research direction to understand and treat glaucoma via the iron homeostasis and ferroptosis pathways.Subject terms: Neurological disorders, Pathogenesis, Peripheral nervous system, Metals 相似文献
108.
Jiajun Shi Qianyi Zhang Xi Yin Jiahui Ye Shengqing Gao Chen Chen Yaxuan Yang Baojuan Wu Yuping Fu Hongmei Zhang Zhangding Wang Bo Wang Yun Zhu Hongyan Wu Yongzhong Yao Guifang Xu Qiang Wang Shouyu Wang Weijie Zhang 《International journal of biological sciences》2023,19(2):449
Metastasis leads to the vast majority of breast cancer mortality. Increasing evidence has shown that N6-methyladenosine (m6A) modification and its associated regulators play a pivotal role in breast cancer metastasis. Here, we showed that overexpression of the m6A reader IGF2BP1 was clinically correlated with metastasis in breast cancer patients. Moreover, IGF2BP1 promoted distant metastasis in vitro and in vivo. Mechanistically, we first identified USP10 as the IGF2BP1 deubiquitinase. USP10 can bind to, deubiquitinate, and stabilize IGF2BP1, resulting in its higher expression level in breast cancer. Furthermore, by MeRIP-seq and experimental verification, we found that IGF2BP1 directly recognized and bound to the m6A sites on CPT1A mRNA and enhanced its stability, which ultimately mediated IGF2BP1-induced breast cancer metastasis. In clinical samples, USP10 levels correlated with IGF2BP1 and CPT1A levels, and breast cancer patients with high levels of USP10, IGF2BP1, and CPT1A had the worst outcome. Therefore, these findings suggest that the USP10/IGF2BP1/CPT1A axis facilitates breast cancer metastasis, and this axis may be a promising prognostic biomarker and therapeutic target for breast cancer. 相似文献
109.
Clubroot, caused by Plasmodiophora brassicae, is a severe soil-borne disease that restricts the production of cruciferous crops worldwide. A better understanding of biotic and abiotic factors regulating germination of P. brassicae resting spores in the soil is significant for developing novel control methods. Previous studies reported that root exudates can trigger P. brassicae resting spore germination, thus enabling a targeted attack of P. brassicae on host plant roots. However, we found that native root exudates collected under sterile conditions from host or non-host plants cannot stimulate the germination of sterile spores, indicating that root exudates may not be direct stimulation factors. Instead, our studies demonstrate that soil bacteria are essential for triggering germination. Through 16s rRNA amplicon sequencing analysis, we found that certain carbon sources and nitrate can reshape the initial microbial community to an inducing community leading to the germination of P. brassicae resting spores. The stimulating communities significantly differed in composition and abundance of bacterial taxa compared to the non-stimulating ones. Several enriched bacterial taxa in stimulating community were significantly correlated with spore germination rates and may be involved as stimulation factors. Based on our findings, a multi-factorial ‘pathobiome’ model comprising abiotic and biotic factors is proposed to represent the putative plant-microbiome-pathogen interactions associated with breaking spore dormancy of P. brassicae in soil. This study presents novel views on P. brassicae pathogenicity and lays the foundation for novel sustainable control strategies of clubroot. 相似文献
110.
Yue Zhu Huici Yao Hongyan Lu Xiaobo Hao Suqing Xu 《Journal of cellular and molecular medicine》2023,27(2):304
Evidence points to the indispensable function of alveolar macrophages (AMs) in normal lung development and tissue homeostasis. However, the importance of AMs in bronchopulmonary dysplasia (BPD) has not been elucidated. Here, we identified a significant role of abnormal AM proliferation and polarization in alveolar dysplasia during BPD, which is closely related to the activation of the IL‐33‐ST2 pathway. Compared with the control BPD group, AMs depletion partially abolished the epithelialmesenchymal transition process of AECII and alleviated pulmonary differentiation arrest. In addition, IL‐33 or ST2 knockdown has protective effects against lung injury after hyperoxia, which is associated with reduced AM polarization and proliferation. The protective effect disappeared following reconstitution of AMs in injured IL‐33 knockdown mice, and the differentiation of lung epithelium was blocked again. In conclusion, the IL‐33‐ST2 pathway regulates AECII transdifferentiation by targeting AMs proliferation and polarization in BPD, which shows a novel strategy for manipulating the IL‐33–ST2‐AMs axis for the diagnosis and intervention of BPD. 相似文献