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1.
Cellular life depends on protein transport and membrane traffic. In multicellular organisms, membrane traffic is required for extracellular matrix deposition, cell adhesion, growth factor release, and receptor signaling, which are collectively required to integrate the development and physiology of tissues and organs. Understanding the regulatory mechanisms that govern cargo and membrane flow presents a prime challenge in cell biology. Extracellular matrix (ECM) secretion remains poorly understood, although given its essential roles in the regulation of cell migration, differentiation, and survival, ECM secretion mechanisms are likely to be tightly controlled.Recent studies in vertebrate model systems, from fishes to mammals and in human patients, have revealed complex and diverse loss-of-function phenotypes associated with mutations in components of the secretory machinery. A broad spectrum of diseases from skeletal and cardiovascular to neurological deficits have been linked to ECM trafficking. These discoveries have directly challenged the prevailing view of secretion as an essential but monolithic process. Here, we will discuss the latest findings on mechanisms of ECM trafficking in vertebrates. 相似文献
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In previous experimental studies on the visual processing in vertebrates, higher-order visual functions such as the object
segregation from background were found even in the retinal stage. Previously, the “linear–nonlinear” (LN) cascade models have
been applied to the retinal circuit, and succeeded to describe the input-output dynamics for certain parts of the circuit,
e.g., the receptive field of the outer retinal neurons. And recently, some abstract models composed of LN cascades as the
circuit elements could explain the higher-order retinal functions. However, in such a model, each class of retinal neurons
is mostly omitted and thus, how those neurons play roles in the visual computations cannot be explored. Here, we present a
spatio-temporal computational model of the vertebrate retina, based on the response function for each class of retinal neurons
and on the anatomical inter-cellular connections. This model was capable of not only reproducing the spatio-temporal filtering
properties of the outer retinal neurons, but also realizing the object segregation mechanism in the inner retinal circuit
involving the “wide-field” amacrine cells. Moreover, the first-order Wiener kernels calculated for the neurons in our model
showed a reasonable fit to the kernels previously measured in the real retinal neuron in situ. 相似文献
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野生动物资源本底是自然保护区开展生物多样性有效管理的基础。为了掌握脊椎动物资源现状和评估保护成效,在2017和2018年,利用样线法和红外相机陷阱法等方法,对陕西青木川国家级自然保护区脊椎动物资源进行了实地调查,并采用专家打分法对该保护区保护成效进行赋值评估。结果表明:(1)青木川自然保护区现已记录野生脊椎动物342种,隶属5纲32目91科233属,其中,国家I级、II级重点保护野生动物分别为10种和41种;与2002年保护区建立初期相比,增加了4目9科46属83种,其中,鸟类物种数增加最多,达55种,两栖类仅增加1种。(2)青木川镇游客总量从2009年的5万余人次/年,发展到2017年的162万人次/年,保护区外围的旅游开发对该保护区脊椎动物及栖息地均有一定的潜在影响。(3)过去30年内土地利用模式变化明显,2001年未建立保护区时,该区域农业用地面积约占总面积的33%,建立保护区后至2018年,农业用地仅占保护区总面积的1%,使得区域内脊椎动物的栖息地面积显著增加。(4)保护区的保护成效显著,主要干扰因素发生变化,表现为保护区脊椎动物物种总数明显增加,栖息地适宜性和区域完整性显著增强,主要干扰因素类型已由早期的农林牧渔活动转变为现在的外围旅游开发。 相似文献
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BASAL TISSUE STRUCTURE IN THE EARLIEST EUCONODONTS: TESTING HYPOTHESES OF DEVELOPMENTAL PLASTICITY IN EUCONODONT PHYLOGENY 总被引:1,自引:0,他引:1
Abstract: The hypothesis that conodonts are vertebrates rests solely on evidence of soft tissue anatomy. This has been corroborated by microstructural, topological and developmental evidence of homology between conodont and vertebrate hard tissues. However, these conclusions have been reached on the basis of evidence from highly derived euconodont taxa and the degree to which they are representative of plesiomorphic euconodonts remains an open question. Furthermore, the range of variation in tissue types comprising the euconodont basal body has been used to establish a hypothesis of developmental plasticity early in the phylogeny of the clade, and a model of diminishing potentiality in the evolution of development systems. The microstructural fabrics of the basal tissues of the earliest euconodonts (presumed to be the most plesiomorphic) are examined to test these two hypotheses. It is found that the range of microstructural variation observed hitherto was already apparent among plesiomorphic euconodonts. Thus, established histological data are representative of the most plesiomorphic euconodonts. However, although there is evidence of a range in microstructural fabrics, these are compatible with the dentine tissue system alone, and the degree of variation is compatible with that seen in clades of comparable diversity. 相似文献
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In 1849, Isaac Lea named Sauropus primaevus for footprints from Mount Carbon, Pennsylvania, USA, then the oldest fossil vertebrate footprints reported. In 1902, O. P. Hay constructed a new ichnogenus Palaeosauropus for this ichnospecies. Palaeosauropus has been one of the most frequently reported Mississippian footprint ichnogenera in North America and remains a valid ichnotaxon. The holotype of Palaeosauropus (= “Sauropus”) primaevus (referred to as P. primaevus), consisting of a single manus/pes pair, is described and illustrated in Lea (1853) and is housed at the Academy of Natural Sciences in Philadelphia, Pennsylvania (ANS9752). Lea's large specimen of P. primaevus (approximately 86 cm by 53 cm), that included a trackway of six manus/pes pairs, described and illustrated in 1853 and 1855, was a combination of ANS9752 and a second specimen represented by a plaster cast housed at the National Museum of Natural History (USNM487148). Historical documents and examination of the Mauch Chunk Formation at Mount Carbon, Pennsylvania, enabled the identification of Lea's tracksite, originally reported to be a few hundred feet (about 75 m) from the former Mount Carbon Hotel. Our forensic evidence indicates the type locality for P. primaevus is approximately 90 m south from the southwest corner of Centre and Main Streets in Mount Carbon, Pennsylvania, with geographical coordinates of N 40° 40' 25.7”, W 76° 11' 14.9”. The type locality is within the middle member of the Mauch Chunk Formation, a fluvial sequence of late Mississippian (Visean) Age. 相似文献
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