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81.
Jordan Valgardson Robin Cosbey Paul Houser Milo Rupp Raiden Van Bronkhorst Michael Lee Filip Jagodzinski Jeanine F. Amacher 《Protein science : a publication of the Protein Society》2019,28(12):2127-2143
Recognition of short linear motifs (SLiMs) or peptides by proteins is an important component of many cellular processes. However, due to limited and degenerate binding motifs, prediction of cellular targets is challenging. In addition, many of these interactions are transient and of relatively low affinity. Here, we focus on one of the largest families of SLiM‐binding domains in the human proteome, the PDZ domain. These domains bind the extreme C‐terminus of target proteins, and are involved in many signaling and trafficking pathways. To predict endogenous targets of PDZ domains, we developed MotifAnalyzer‐PDZ, a program that filters and compares all motif‐satisfying sequences in any publicly available proteome. This approach enables us to determine possible PDZ binding targets in humans and other organisms. Using this program, we predicted and biochemically tested novel human PDZ targets by looking for strong sequence conservation in evolution. We also identified three C‐terminal sequences in choanoflagellates that bind a choanoflagellate PDZ domain, the Monsiga brevicollis SHANK1 PDZ domain (mbSHANK1), with endogenously‐relevant affinities, despite a lack of conservation with the targets of a homologous human PDZ domain, SHANK1. All three are predicted to be signaling proteins, with strong sequence homology to cytosolic and receptor tyrosine kinases. Finally, we analyzed and compared the positional amino acid enrichments in PDZ motif‐satisfying sequences from over a dozen organisms. Overall, MotifAnalyzer‐PDZ is a versatile program to investigate potential PDZ interactions. This proof‐of‐concept work is poised to enable similar types of analyses for other SLiM‐binding domains (e.g., MotifAnalyzer‐Kinase). MotifAnalyzer‐PDZ is available at http://motifAnalyzerPDZ.cs.wwu.edu . 相似文献
82.
Jordan A. Sweer Mason T. Chen Kevan J. Salimian Richard J. Battafarano Nicholas J. Durr 《Journal of biophotonics》2019,12(9)
As the incidence of esophageal adenocarcinoma continues to rise, there is a need for improved imaging technologies with contrast to abnormal esophageal tissues. To inform the design of optical technologies that meet this need, we characterize the spatial distribution of the scattering and absorption properties from 471 to 851 nm of eight resected human esophagi tissues using Spatial Frequency Domain Imaging. Histopathology was used to categorize tissue types, including normal, inflammation, fibrotic, ulceration, Barrett's Esophagus and squamous cell carcinoma. Average absorption and reduced scattering coefficients of normal tissues were 0.211 ± 0.051 and 1.20 ± 0.18 mm?1, respectively at 471 nm, and both values decreased monotonically with increasing wavelength. Fibrotic tissue exhibited at least 68% larger scattering signal across all wavelengths, while squamous cell carcinoma exhibited a 36% decrease in scattering at 471 nm. We additionally image the esophagus with high spatial frequencies up to 0.5 mm?1 and show strong reflectance contrast to tissue treated with radiation. Lastly, we observe that esophageal absorption and scattering values change by an average of 9.4% and 2.7% respectively over a 30 minute duration post‐resection. These results may guide system design for the diagnosis, prevention and monitoring of esophageal pathologies. 相似文献
83.
While hundreds of novel microRNA (miRNA) genes have been discovered in the last few years alone, the origin and evolution of these non-coding regulatory sequences remain largely obscure. In this report, we demonstrate that members of a recently discovered family of human miRNA genes, hsa-mir-548, are derived from Made1 transposable elements. Made1 elements are short miniature inverted-repeat transposable elements (MITEs), which consist of two 37 base pair (bp) terminal inverted repeats that flank 6 bp of internal sequence. Thus, Made1 elements are nearly perfect palindromes, and when expressed as RNA they form highly stable hairpin loops. Apparently, these Made1-related structures are recognized by the RNA interference enzymatic machinery and processed to form 22 bp mature miRNA sequences. Consistent with their origin from MITEs, hsa-mir-548 genes are primate-specific and have many potential paralogs in the human genome. There are more than 3,500 putative hsa-mir-548 target genes; analysis of their expression profiles and functional affinities suggests cancer-related regulatory roles for hsa-mir-548. Taken together, the characteristics of Made1 elements, and MITEs in general, point to a specific mechanism for the generation of numerous small regulatory RNAs and target sites throughout the genome. The evolutionary lineage-specific nature of MITEs could also provide for the generation of novel regulatory phenotypes related to species diversification. Finally, we propose that MITEs may represent an evolutionary link between siRNAs and miRNAs. 相似文献
84.
Andriy I Batchinsky William B Weiss Bryan S Jordan Edward J Dick David A Cancelada Leopoldo C Cancio 《Journal of applied physiology》2007,103(3):895-902
Ventilation-perfusion changes after right-sided pulmonary contusion (PC) in swine were investigated by means of the multiple inert gas elimination technique (MIGET). Anesthetized swine (injury, n = 8; control, n = 6) sustained a right-chest PC by a captive-bolt apparatus. This was followed by a 12-ml/kg hemorrhage, resuscitation, and reinfusion of shed blood. MIGET and thoracic computed tomography (CT) were performed before and 6 h after injury. Three-dimensional CT scan reconstruction enabled determination of the combined fractional volume of poorly aerated and non-aerated lung tissue (VOL), and the mean gray-scale density (MGSD). Six hours after PC in injured animals, Pa(O(2)) decreased from 234.9 +/- 5.1 to 113.9 +/- 13.0 mmHg. Shunt (Q(S)) increased (2.7 +/- 0.4 to 12.3 +/- 2.2%) at the expense of blood flow to normal ventilation/perfusion compartments (97.1 +/- 0.4 to 87.4 +/- 2.2%). Dead space ventilation (V(D)/V(T)) increased (58.7 +/- 1.7% to 67.2 +/- 1.2%). MGSD increased (-696.7 +/- 6.1 to -565.0 +/- 24.3 Hounsfield units), as did VOL (4.3 +/- 0.5 to 33.5 +/- 3.2%). Multivariate linear regression of MGSD, VOL, V(D)/V(T), and Q(S) vs. Pa(O(2)) retained VOL and Q(S) (r(2) = .835) as independent covariates of Pa(O(2)). An increase in Q(S) characterizes lung failure 6 h after pulmonary contusion; Q(S) and VOL correlate independently with Pa(O(2)). 相似文献
85.
Roman M Baevsky Victor M Baranov Irina I Funtova André Diedrich Andrey V Pashenko Anja G Chernikova Jürgen Drescher Jens Jordan Jens Tank 《Journal of applied physiology》2007,103(1):156-161
Impaired autonomic control represents a cardiovascular risk factor during long-term spaceflight. Little has been reported on blood pressure (BP), heart rate (HR), and heart rate variability (HRV) during and after prolonged spaceflight. We tested the hypothesis that cardiovascular control remains stable during prolonged spaceflight. Electrocardiography, photoplethysmography, and respiratory frequency (RF) were assessed in eight male cosmonauts (age 41-50 yr, body-mass index of 22-28 kg/m2) during long-term missions (flight lengths of 162-196 days). Recordings were made 60 and 30 days before the flight, every 4 wk during flight, and on days 3 and 6 postflight during spontaneous and controlled respiration. Orthostatic testing was performed pre- and postflight. RF and BP decreased during spaceflight (P < 0.05). Mean HR and HRV in the low- and high-frequency bands did not change during spaceflight. However, the individual responses were different and correlated with preflight values. Pulse-wave transit time decreased during spaceflight (P < 0.05). HRV reached during controlled respiration (6 breaths/min) decreased in six and increased in one cosmonaut during flight. The most pronounced changes in HR, BP, and HRV occurred after landing. The decreases in BP and RF combined with stable HR and HRV during flight suggest functional adaptation rather than pathological changes. Pulse-wave transit time shortening in our study is surprising and may reflect cardiac output redistribution in space. The decrease in HRV during controlled respiration (6 breaths/min) indicates reduced parasympathetic reserve, which may contribute to postflight disturbances. 相似文献
86.
Seider Jordan H. Lantz Trevor C. Hermosilla Txomin Wulder Michael A. Wang Jonathan A. 《Ecosystems》2022,25(7):1435-1454
Ecosystems - Temperature increases across the circumpolar north have driven rapid increases in vegetation productivity, often described as ‘greening’. These changes have been... 相似文献
87.
Phytochemistry Reviews - Following decades of tight restrictions, recent legislative adjustments have decriminalized the use of products derived from cannabis (Cannabis sativa L.) in many countries... 相似文献
88.
Adi Yahalom Geula Davidov Sofiya Kolusheva Hadassa Shaked Shiran Barber-Zucker Raz Zarivach Jordan H. Chill 《生物化学与生物物理学报:生物膜》2019,1861(12):183054
BteA, a 69-kDa cytotoxic protein, is a type III secretion system (T3SS) effector in the classical Bordetella, the etiological agents of pertussis and related mammalian respiratory diseases. Like other cytotoxicity-mediating effectors, BteA uses its multifunctional N-terminal domain to target phosphatidylinositol (PI)-rich microdomains in the host membrane. Despite their structural similarity, T3SS effectors exhibit a variable range of membrane interaction modes, and currently only limited structural information is available for the BteA membrane-targeting domain and the molecular mechanisms underlying its function. Employing a synergistic combination of structural methods, here we determine the structure of this functional domain and uncover key molecular determinants mediating its interaction with membranes. Residues 29–121 of BteA form an elongated four-helix bundle packed against two shorter perpendicular helices, the second of which caps the domain in a critical ‘tip motif’. A flexible region preceding the BteA helical bundle contains the characteristic β-motif required for binding its cognate chaperone BtcA. We show that BteA targets PI(4,5)P2-containing lipoprotein nanodiscs and binds a soluble PI(4,5)P2 analog via an extensive positively charged surface spanning its first two helices, and that this interaction is weaker for PI(3,5)P2 and abolished for PI(4)P. We confirmed this model of membrane-targeting by observation of BteA-induced changes in the structure of PI(4,5)P2-containing phospholipid bilayers using small-angle X-ray scattering (SAXS). We also extended these results to a larger BteA domain (residues 1–287), confirming its interaction with bilayers using calorimetry, fluorescence and SAXS methods. This novel view of the structural underpinnings of membrane targeting by BteA is an important step towards a comprehensive understanding of cytotoxicity in Bordetella, as well as interactions of a broad range of pathogens with their respective hosts. 相似文献
89.
Neurochemical Research - According to recent findings, the human 2-oxoglutarate dehydrogenase complex (hOGDHc) could be an important source of the reactive oxygen species in the mitochondria and... 相似文献
90.
Cynthia L. Jordan 《Developmental neurobiology》1996,31(1):29-40
In adult skeletal muscles, exogenous ciliary neurotrophic factor (CNTF) induces axons and their nerve terminals to sprout. CNTF also regulates the amount of multiple innervation in developing skeletal muscles during synapse elimination, maintaining multiple innervation of muscle fibers. While CNTF may maintain multiple innervation by regulating developmental synapse elimination, it is also possible that CNTF induces the formation of new multiple innervation through a sprouting response. In this study I examined morphologically the effects of CNTF during synapse elimination in the extensor digitorum longus (EDL) muscle. Rat pups received injections of CNTF in one leg and vehicle in the other either early [postnatal day 7 (P7)-P13] or late (P14–P20) in development. The early treatment period corresponds to that time when the pattern of innervation in the EDL is converted from predominantly multiple to single innervation. The late treatment period is at the end of synapse elimination for the EDL but corresponds to the major period of synapse elimination in the levator ani (LA), allowing a comparison of effects on these two muscles from the same animals. On the day after the final injection, EDL muscles were dissected and stained with tetranitroblue tetrazolium and the resulting pattern of innervation was assessed. The present findings indicate that only the early CNTF treatment regulates the level of multiple innervation in the EDL. Moreover, the effect of early CNTF treatment was local, affecting multiple innervation only in the EDL from the CNTF-treated leg. CNTF injected during the late treatment period had no apparent effects on the EDL but had a potent effect on the pattern of innervation in the LA, significantly increasing the level of multiple innervation in this muscle. Thus, CNTF affected multiple innervation in these two muscles only if provided during the period when single innervation normally develops. There was no evidence to indicate that CNTF induced axons or their terminals to sprout during either treatment period. In conclusion, CNTF increases the level of multiple innervation, probably by regulating synapse elimination, and skeletal muscles themselves may be an important target site for CNTF action. Presumably, the sprouting response to CNTF found in adult muscle develops sometime after P21. © 1996 John Wiley & Sons, Inc. 相似文献