404 research outputs found
CDK5 positively regulates notch1 signaling in pancreatic cancer cells by phosphorylation
The marked overexpression of cyclin-dependent kinase 5 (CDK5) or Notch1 receptor, which plays critical roles in pancreatic ductal adenocarcinoma (PDAC) development, has been detected in numerous PDAC cell lines and tissues. Although, a previous study has demonstrated that CDK5 inhibition disrupts Notch1 functions in human umbilical vein endothelial cells, the mechanism underlying Notch1 activation regulated by CDK5 remains unclear. Herein, we identified a physical interaction between CDK5 and Notch1 in PDAC cells, with the Notch1 peptide phosphorylated by CDK5/p25 kinase. CDK5 blockade resulted in the profound inhibition of Notch signaling. Accordingly, CDK5 inhibition sensitized PDAC cell proliferation and migration following Notch inhibition. In conclusion, CDK5 positively regulates Notch1 function via phosphorylation, which in turn promotes cell proliferation and migration. The combinational inhibition of CDK5 and Notch signaling may be an effective strategy in the treatment of PDAC
DALNet: A Rail Detection Network Based on Dynamic Anchor Line
Rail detection is one of the key factors for intelligent train. In the paper,
motivated by the anchor line-based lane detection methods, we propose a rail
detection network called DALNet based on dynamic anchor line. Aiming to solve
the problem that the predefined anchor line is image agnostic, we design a
novel dynamic anchor line mechanism. It utilizes a dynamic anchor line
generator to dynamically generate an appropriate anchor line for each rail
instance based on the position and shape of the rails in the input image. These
dynamically generated anchor lines can be considered as better position
references to accurately localize the rails than the predefined anchor lines.
In addition, we present a challenging urban rail detection dataset DL-Rail with
high-quality annotations and scenario diversity. DL-Rail contains 7000 pairs of
images and annotations along with scene tags, and it is expected to encourage
the development of rail detection. We extensively compare DALNet with many
competitive lane methods. The results show that our DALNet achieves
state-of-the-art performance on our DL-Rail rail detection dataset and the
popular Tusimple and LLAMAS lane detection benchmarks. The code will be
released at https://github.com/Yzichen/mmLaneDet
Improvement on PDP Evaluation Performance Based on Neural Networks and SGDK-means Algorithm
With the purpose of improving the PDP (policy decision point) evaluation performance, a novel and efficient evaluation engine, namely XDNNEngine, based on neural networks and an SGDK-means (stochastic gradient descent K-means) algorithm is proposed. We divide a policy set into different clusters, distinguish different rules based on their own features and label them for the training of neural networks by using the K-means algorithm and an asynchronous SGDK-means algorithm. Then, we utilize neural networks to search for the applicable rule. A quantitative neural network is introduced to reduce a server’s computational cost. By simulating the arrival of requests, XDNNEngine is compared with the Sun PDP, XEngine and SBA-XACML. Experimental results show that 1) if the number of requests reaches 10,000, the evaluation time of XDNNEngine on the large-scale policy set with 10,000 rules is approximately 2.5 ms, and 2) in the same condition as 1), the evaluation time of XDNNEngine is reduced by 98.27%, 90.36% and 84.69%, respectively, over that of the Sun PDP, XEngine and SBA-XACML
Training-Free Instance Segmentation from Semantic Image Segmentation Masks
In recent years, the development of instance segmentation has garnered
significant attention in a wide range of applications. However, the training of
a fully-supervised instance segmentation model requires costly both
instance-level and pixel-level annotations. In contrast, weakly-supervised
instance segmentation methods (i.e., with image-level class labels or point
labels) struggle to satisfy the accuracy and recall requirements of practical
scenarios. In this paper, we propose a novel paradigm for instance segmentation
called training-free instance segmentation (TFISeg), which achieves instance
segmentation results from image masks predicted using off-the-shelf semantic
segmentation models. TFISeg does not require training a semantic or/and
instance segmentation model and avoids the need for instance-level image
annotations. Therefore, it is highly efficient. Specifically, we first obtain a
semantic segmentation mask of the input image via a trained semantic
segmentation model. Then, we calculate a displacement field vector for each
pixel based on the segmentation mask, which can indicate representations
belonging to the same class but different instances, i.e., obtaining the
instance-level object information. Finally, instance segmentation results are
obtained after being refined by a learnable category-agnostic object boundary
branch. Extensive experimental results on two challenging datasets and
representative semantic segmentation baselines (including CNNs and
Transformers) demonstrate that TFISeg can achieve competitive results compared
to the state-of-the-art fully-supervised instance segmentation methods without
the need for additional human resources or increased computational costs. The
code is available at: TFISegComment: 14 pages,5 figure
Analysis of factors influencing carbon emissions in the evolution of road electrification in Beijing
In this article, a comprehensive analysis is conducted on the influencing factors of carbon emissions in the transportation sector during the evolution of electrification in Beijing. We also considered the impact of indirect carbon emissions caused by carbon emissions from public and private cars and electricity consumption on overall carbon emissions. Based on the LMDI decomposition theory, nine influencing factors are separated, including development level, energy intensity, vehicle structure, number of private cars, and private transportation energy consumption. The analysis results show that, from 2010 to 2021, the carbon emissions from transportation in Beijing increased from 922.98 × 104t to 1490.6 × 104t. The private road carbon emission accounts for about 77.97%, and has become a decisive factor affecting road carbon emissions. In the public domain the contribution values of the development level and energy intensity are 25.20% and −38.71%, respectively. And they are the two most critical factors affecting carbon emissions on public road carbon emissions. In the private domain, the contribution values of the number of private cars, energy consumption of private transportation, and vehicle structure are 60.17%, 47.86%, and −12.99%, respectively. They are the three key factors affecting the private road carbon emissions. There is a significant difference in the proportion of indirect carbon emissions from electricity in the public and private domain. Indirect carbon emissions from electricity account for about 13.6% of road carbon emissions in the public sector, and about 0.9% in the private sector. The results in this paper provide useful references for decision-making in the adjustment of transportation energy structure and the promotion of electrified transportation in Beijing and other cities
An improved method of searching inferior parathyroid gland for the patients with papillary thyroid carcinoma based on a retrospective study
ObjectiveMany surgeons knew the importance of parathyroid gland (PG) in the thyroid surgery, but it was even more difficult to be protected. This study aimed at evaluating the effectiveness of the improved method of searching inferior parathyroid gland (IPG).Methods213 patients were enrolled and divided into test and control groups according to different methods of searching IPG in the surgery. Consequently, we compared the surgical outcome parameters between the two groups, including the operative time, numbers of PG identifying (PG protection in situ, PG auto-transplantation, and PG accidental removal), numbers of the total lymph node (LN) and metastatic LN, parathyroid hormone (PTH), transient hypoparathyroidism, transient recurrent laryngeal nerve palsy, and postoperative bleeding.ResultsWe identified 194 (194/196, 98.98%) and 215 (215/230, 93.48%) PGs in the test group and control group, respectively, and there was a significant difference (P = 0.005), and this result was due to IPG identification differences (96/98, 97.96% vs. 100/115, 86.96%, P = 0.004). Meanwhile, there was a lower ratio of IPG auto-transplantation in the test group compared with that in the control group (46.94% vs. 64.35%, P = 0.013). Serum PTH one day after the operation was 3.65 ± 1.86 vs. 2.96 ± 1.64 (P = 0.043) but with no difference at 6 months. There were no differences in metastatic LN and recurrent laryngeal nerve palsy between two groups.ConclusionThe improved method of searching IPG was simple, efficient, and safe, which was easy to be implemented for searching IPG and protecting it well
An association of a simultaneous nuclear and cytoplasmic localization of Fra-1 with breast malignancy
BACKGROUND: Overexpression of Fra-1 in fibroblasts causes anchorage-independent cell growth and oncogenic transformation. A high level of Fra-1 expression is found in various tumors and tumorigenic cell lines, suggesting that Fra-1 may be involved in malignant progression. This study aimed to investigate the significance of Fra-1 expression in breast carcinogenesis. METHODS: The expression of Fra-1 was investigated by immunohistochemistry in neoplastic breast diseases ranging from benign fibroadenoma to very aggressive undifferentiated carcinoma. The correlations of Fra-1 expression with other indicators of breast carcinoma prognosis (ER, PR and ErbB2 receptors) were analyzed. RESULTS: All neoplastic breast tissues, either benign or malignant breast tissues, were nuclear immunoreactive for Fra-1-recognizing antibody. The pattern of Fra-1 expression by benign neoplastic cells was predominantly nuclear. However, the nuclear/cytoplasmic concomitant immunoreactivity was observed in all types of breast carcinomas. A clear shift in Fra-1 immunoreactivity, from an exclusively nuclear to a simultaneous nuclear and cytoplasmic localization was noticed in ~90% of breast carcinomas. CONCLUSION: The overall expression, pattern and intensity of Fra-1 proteins were correlated with breast oncogenesis. Overexpression of Fra-1, leading to a persistent high cytoplasmic accumulation, may play a role in the process of breast carcinogenesis
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