qPCR and Western blotting of activation of CK8 receptor and RhoA/ROCK1 pathway proteins in Caco-2 cells treated with rTsSPc and IIL ES antigens. حسب Wen Wen Zheng (17721404)

الموضوعات:

CK8 knockdown and ROCK1 inhibitor suppressed rTsSPc-induced disruption of the Caco-2 monolayer and blocked rTsSPc-promoted IIL invasion. حسب Wen Wen Zheng (17721404)

الموضوعات:

HE staining showed that DAS and Y27632 alleviated intestinal inflammation in <i>T. spiralis</i>-infected mice. حسب Wen Wen Zheng (17721404)

الموضوعات:

The ROCK1 pathway inhibitor Y27632 prevented rTsSPc from activating the ROCK1 pathway and reducing TJs expression. حسب Wen Wen Zheng (17721404)

الموضوعات:

qPCR (A-D) and ELISA (E-H) detection of inflammatory cytokines in intestine of <i>T. spiralis</i>-infected mice. حسب Wen Wen Zheng (17721404)

الموضوعات:

Comparison of the predictive performance of GSRS, tumor mutational burden (TMB), and microsatellite instability (MSI) in forecasting immunotherapeutic response, as assessed by the... حسب Yu Zhang (12946)

الموضوعات:

The error between test and simulation results. حسب Shan Gao (46743)

"…Furthermore, both the maximum stress and deformation of the gyration platform exhibit a noticeable increasing trend with the escalation of swing speed. The correlation established indicates that elevated swing speeds lead to heightened dynamic stress on the gyration platform, consequently causing a noteworthy decrease in its fatigue life. …"

Relevant parameters of cutting head and pick. حسب Shan Gao (46743)

"…Furthermore, both the maximum stress and deformation of the gyration platform exhibit a noticeable increasing trend with the escalation of swing speed. The correlation established indicates that elevated swing speeds lead to heightened dynamic stress on the gyration platform, consequently causing a noteworthy decrease in its fatigue life. …"

The stress variation of Node 33. حسب Shan Gao (46743)

"…Furthermore, both the maximum stress and deformation of the gyration platform exhibit a noticeable increasing trend with the escalation of swing speed. The correlation established indicates that elevated swing speeds lead to heightened dynamic stress on the gyration platform, consequently causing a noteworthy decrease in its fatigue life. …"

Force transformation of cutting head. حسب Shan Gao (46743)

"…Furthermore, both the maximum stress and deformation of the gyration platform exhibit a noticeable increasing trend with the escalation of swing speed. The correlation established indicates that elevated swing speeds lead to heightened dynamic stress on the gyration platform, consequently causing a noteworthy decrease in its fatigue life. …"

3D model of cutting head. حسب Shan Gao (46743)

"…Furthermore, both the maximum stress and deformation of the gyration platform exhibit a noticeable increasing trend with the escalation of swing speed. The correlation established indicates that elevated swing speeds lead to heightened dynamic stress on the gyration platform, consequently causing a noteworthy decrease in its fatigue life. …"

Rigid-flexible coupling mode. حسب Shan Gao (46743)

"…Furthermore, both the maximum stress and deformation of the gyration platform exhibit a noticeable increasing trend with the escalation of swing speed. The correlation established indicates that elevated swing speeds lead to heightened dynamic stress on the gyration platform, consequently causing a noteworthy decrease in its fatigue life. …"

The flow of cutting performance calculation. حسب Shan Gao (46743)

"…Furthermore, both the maximum stress and deformation of the gyration platform exhibit a noticeable increasing trend with the escalation of swing speed. The correlation established indicates that elevated swing speeds lead to heightened dynamic stress on the gyration platform, consequently causing a noteworthy decrease in its fatigue life. …"

Results of different optimization schemes. حسب Shan Gao (46743)

"…Furthermore, both the maximum stress and deformation of the gyration platform exhibit a noticeable increasing trend with the escalation of swing speed. The correlation established indicates that elevated swing speeds lead to heightened dynamic stress on the gyration platform, consequently causing a noteworthy decrease in its fatigue life. …"

Modal shape of the gyration platform. حسب Shan Gao (46743)

"…Furthermore, both the maximum stress and deformation of the gyration platform exhibit a noticeable increasing trend with the escalation of swing speed. The correlation established indicates that elevated swing speeds lead to heightened dynamic stress on the gyration platform, consequently causing a noteworthy decrease in its fatigue life. …"

Deformation variation of Node 33. حسب Shan Gao (46743)

"…Furthermore, both the maximum stress and deformation of the gyration platform exhibit a noticeable increasing trend with the escalation of swing speed. The correlation established indicates that elevated swing speeds lead to heightened dynamic stress on the gyration platform, consequently causing a noteworthy decrease in its fatigue life. …"

Optimization parameters of gyration platform. حسب Shan Gao (46743)

"…Furthermore, both the maximum stress and deformation of the gyration platform exhibit a noticeable increasing trend with the escalation of swing speed. The correlation established indicates that elevated swing speeds lead to heightened dynamic stress on the gyration platform, consequently causing a noteworthy decrease in its fatigue life. …"

Property parameters of rock samples. حسب Shan Gao (46743)

"…Furthermore, both the maximum stress and deformation of the gyration platform exhibit a noticeable increasing trend with the escalation of swing speed. The correlation established indicates that elevated swing speeds lead to heightened dynamic stress on the gyration platform, consequently causing a noteworthy decrease in its fatigue life. …"

Modal frequency of the gyration platform. حسب Shan Gao (46743)

"…Furthermore, both the maximum stress and deformation of the gyration platform exhibit a noticeable increasing trend with the escalation of swing speed. The correlation established indicates that elevated swing speeds lead to heightened dynamic stress on the gyration platform, consequently causing a noteworthy decrease in its fatigue life. …"

Optimized design nodes of different parameters. حسب Shan Gao (46743)

"…Furthermore, both the maximum stress and deformation of the gyration platform exhibit a noticeable increasing trend with the escalation of swing speed. The correlation established indicates that elevated swing speeds lead to heightened dynamic stress on the gyration platform, consequently causing a noteworthy decrease in its fatigue life. …"