BACKGROUND:Protein is one of the essential nutrients for the human body and is a key component of human cell tissue.Protein supplementation can promote the synthesis of myofibrillar protein and play a key role in strength training.However,the interaction mechanism and signaling pathway between protein and exercise are still unclear.OBJECTIVE:To explore the mechanism of interaction between exercise and protein,and to optimize the benefits of protein supplementation on exercise performance.METHODS:Using"sports,proteins,amino acids,polypeptide,interaction mechanisms,signaling pathway"as Chinese and English search terms,we searched WanFang Data,CNKI,VIP,and PubMed databases respectively.Articles were screened according to the inclusion criteria,and finally 73 articles were included in the review.RESULTS AND CONCLUSION:Current research on protein supplementation promoting exercise performance mainly focuses on promoting muscle growth,endurance improvement,and body recovery through protein supplementation,but there are differences in the existing experimental results.The interaction mechanism between protein molecules and proteins in the body is not yet clear.The research on the interaction mechanism between exercise and peptides is still in its infancy.Exercise can stimulate the full absorption of external protein intake,which can affect the mechanism of protein molecules in the body.Supplementing peptide nutrition can more accurately affect the body's state,thus better eliminating the phenomena of"sub-health"and"modern diseases."Therefore,studying the interaction mechanism between exercise and proteins is particularly important,delving into the specific mechanisms by which amino acids act on the body,and further exploring the interaction mechanism between exercise and peptides.

BACKGROUND:Protein is one of the essential nutrients for the human body and is a key component of human cell tissue.Protein supplementation can promote the synthesis of myofibrillar protein and play a key role in strength training.However,the interaction mechanism and signaling pathway between protein and exercise are still unclear.OBJECTIVE:To explore the mechanism of interaction between exercise and protein,and to optimize the benefits of protein supplementation on exercise performance.METHODS:Using"sports,proteins,amino acids,polypeptide,interaction mechanisms,signaling pathway"as Chinese and English search terms,we searched WanFang Data,CNKI,VIP,and PubMed databases respectively.Articles were screened according to the inclusion criteria,and finally 73 articles were included in the review.RESULTS AND CONCLUSION:Current research on protein supplementation promoting exercise performance mainly focuses on promoting muscle growth,endurance improvement,and body recovery through protein supplementation,but there are differences in the existing experimental results.The interaction mechanism between protein molecules and proteins in the body is not yet clear.The research on the interaction mechanism between exercise and peptides is still in its infancy.Exercise can stimulate the full absorption of external protein intake,which can affect the mechanism of protein molecules in the body.Supplementing peptide nutrition can more accurately affect the body's state,thus better eliminating the phenomena of"sub-health"and"modern diseases."Therefore,studying the interaction mechanism between exercise and proteins is particularly important,delving into the specific mechanisms by which amino acids act on the body,and further exploring the interaction mechanism between exercise and peptides.

Hydroxychloroquine is widely used in the treatment of autoimmune diseases and skin diseases, mainly for the treatment of diseases such as systemic lupus erythematosus, rheumatoid arthritis and other diseases. Hydroxychloroquine has many benefits to patients, but long-term use of the drug may lead to retinal chronic toxicity changes, seriously affect the patient’s vision and quality of their lives. However, there are few studies on retinal toxicity of hydroxychloroquine in the world, easy to miss diagnosis and misdiagnosis clinically. ophthalmologists should increase the knowledge with the etiology and pathology of hydroxychloroquine retinal toxicity, through relevant auxiliary check early detection of the drug to the retina and timely suggest patients to stop. This can effectively reduce the risk of vision loss caused by retinal toxicity, and reduce the adverse effects of hydroxychloroquine on the retina while patients get a good treatment effect.

Hydroxychloroquine is widely used in the treatment of autoimmune diseases and skin diseases, mainly for the treatment of diseases such as systemic lupus erythematosus, rheumatoid arthritis and other diseases. Hydroxychloroquine has many benefits to patients, but long-term use of the drug may lead to retinal chronic toxicity changes, seriously affect the patient’s vision and quality of their lives. However, there are few studies on retinal toxicity of hydroxychloroquine in the world, easy to miss diagnosis and misdiagnosis clinically. ophthalmologists should increase the knowledge with the etiology and pathology of hydroxychloroquine retinal toxicity, through relevant auxiliary check early detection of the drug to the retina and timely suggest patients to stop. This can effectively reduce the risk of vision loss caused by retinal toxicity, and reduce the adverse effects of hydroxychloroquine on the retina while patients get a good treatment effect.

Objective:To investigate the effect of virus inactivation on weak positive result of 2019 novel coronavirus(2019-nCoV) nucleic acid test.Methods:A retrospective study was conducted on the nasopharyngeal swabs of three patients with positive PCR nucleic acid test for 2019-nCoV at different concentrations in the Second affiliated Hospital of Zhejiang University Medical College from January to February 2020.The virus in nasopharyngeal swab specimens were inactivated by water bath at 56 ℃ for 30 min, dry bath at 56 ℃ for 60 min and dry bath at 60 ℃ for 30 min respectively. After treatment, these samples RNA were extracted and then detected by three new commercial quantitative real-time polymerase chain reaction reagent kits for 2019-nCoV.Cycle threshold (Ct) value was used to evaluate the effect of virus inactivation on nucleic acid detection of 2019-nCoV.Results:There was no significant difference between the groups before and after inactivation. Ct values of ORF1ab gene before inactivation were 23.28±0.28, 25.25±0.25, 28.93±0.44, 32.06±0.47, 35.20±0.38, 32.89±0.38, 36.24±0.23, 33.30±0.46, and those after inactivation were, group 1:23.60±0.20, 27.29±0.30, 31.83±0.51, 37.41±0.46, group 2: 24.25±0.34, 27.18±0.42, 31.84±0.61, 34.99±1.01, 34.89±0.45,group 3: 23.37±0.17, 26.89±0.52, 32.05±0.50.Ct value of N gene before inactivation were 24.38±0.09, 26.64±0.11, 30.35±0.12, 33.29±0.33, 36.93±0.11, 34.50±0.12, 35.63±0.12, those after inactivation were, group 1: 24.66±0.11, 28.52±0.14, 32.71±0.14, 37.00±0.13;group 2: 25.41±0.10, 28.79±0.15, 33.29±0.28; group 3: 23.37±0.11, 28.68±0.11, 33.54±0.13, 37.18±0.23(ORF1ab gene: t=-1.416; N gene: t=-1.379, P>0.05). There was no significant difference among the three inactivation groups, the specific Ct values are shown above(ORF1ab gene: t=-0.460; N gene: t=-0.132, P>0.05). However, the Ct values of the inactivated groups (1,2,3) and the non-inactivated group at different dilution times were different (10 ×:Ct value of ORF1ab was 25.25±0.25 in the non-inactivated group, and 27.29±0.30, 27.18±0.42 and 26.89±0.52 in the inactivated group1,2 and 3, t(ORF1ab)=-7.327, P<0.01.Ct value of N gene in the non-inactivated group was26.64±0.11, those in inactivated group 1, 2 and 3 were 28.52±0.14, 28.79±0.15 and 28.68±0.11, respectively, t (N)=-19.340, P<0.01. 100 ×:Ct value of ORF1ab was 28.93±0.44 in the non-inactivated group, and 31.83±0.51,31.84±0.61 and 32.05±0.50 in the inactivated group1,2 and 3, t (ORF1ab)=-9.462, P<0.01. Ct value of N gene in the non-inactivated group was 30.35±0.12, those in the inactivated group 1, 2 and 3 were 32.71±0.14, 33.29±0.28 and 33.54±0.13, respectively, t (N)=-18.583, P<0.01. The positive detection rate of the non-inactivated group (7/11, 8/11, 5/11) was significantly different from that of the inactivated group (inactivated group 1:4/11, 4/11, 3/11, inactivated group 2:3/11, 3/11, 3/11, and inactivated group 3:3/11, 3/11, 2/11) ( Z=-2.670, P<0.01). There were no significant difference among the inactivated groups(inactivated group 1:4/11, 4/11, 3/11, inactivated group 2:3/11, 3/11, 3/11, inactivated group 3:3/11, 3/11, 2/11) ( Z=4.413, P>0.05) and among the three reagents(reagent 1:7/11, 4/11, 3/11, 3/11, reagent 2:8/11, 4/11, 3/11, 3/11, reagent 3:5/11, 3/11, 3/11, 2/11)(χ 2=1.199, P>0.05). Conclusion:The virus inactivation can degrade the nucleic acid of the 2019-nCoV, resulting in the decrease of the Ct value and the false negative results of the low-concentration specimens.