Constructing Dynamic Anode/Electrolyte Interfaces Coupled with Regulated Solvation Structures for Long-Term and Highly Reversible Zinc Metal Anodes.

Aqueous zinc ion batteries (AZIBs) show a great potential for next-generation energy storage due to their high safety and high energy density. However, the severe side reactions of zinc negative electrode largely hinder the further application of AZIBs. Herein, trace tris(hydroxymethyl)aminomethane (Tris) additive with rich lone-pair-electrons and zincophilic sites is firstly introduced to achieve long-term and highly reversible Zn plating/stripping. Specifically, Tris not only regulates the solvation structure of Zn2+, but is also adsorbed vertically on the Zn anode surface with a changed coordination intensity during the plating/stripping process of Zn to generate an in situ dynamic adsorption layer for the first time. The dynamic adsorption layer could successively attract the solvated Zn2+ and then promote the de-solvation of the solvated Zn2+ owing to the orientation polarization with regularly-changed applied electric field, the volume rejection effect, and strong intermolecular force towards H2O of the vertically-adsorbed Tris. Therefore, an improved Zn2+-transport kinetics as well as the inhibition of side reactions of Zn anode are successfully realized. Accordingly, the Zn||Zn symmetric cell provides an ultra-long cycle life of 2600 h. Furthermore, the Zn||MnO2 full cell with Tris could demonstrate a high capacity and structural stability for practical applications.

CsPAT1, a GRAS transcription factor, promotes lignin accumulation by antagonistic interacting with CsWRKY13 in tea plants.

Lignin is an important component of plant cell walls and plays crucial roles in the essential agronomic traits of tea quality and tenderness. However, the molecular mechanisms underlying the regulation of lignin biosynthesis in tea plants remain unclear. CsWRKY13 acts as a negative regulator of lignin biosynthesis in tea plants. In this study, we identified a GRAS transcription factor, phytochrome A signal transduction 1 (CsPAT1), that interacts with CsWRKY13. Silencing CsPAT1 expression in tea plants and heterologous overexpression in Arabidopsis demonstrated that CsPAT1 positively regulates lignin accumulation. Further investigation revealed that CsWRKY13 directly binds to the promoters of CsPAL and CsC4H and suppresses transcription of CsPAL and CsC4H. CsPAT1 indirectly affects the promoter activities of CsPAL and CsC4H by interacting with CsWRKY13, thereby facilitating lignin biosynthesis in tea plants. Compared with the expression of CsWRKY13 alone, the co-expression of CsPAT1 and CsWRKY13 in Oryza sativa significantly increased lignin biosynthesis. Conversely, compared with the expression of CsPAT1 alone, the co-expression of CsPAT1 and CsWRKY13 in O. sativa significantly reduced lignin accumulation. These results demonstrated the antagonistic regulation of the lignin biosynthesis pathway by CsPAT1 and CsWRKY13. These findings improve our understanding of lignin biosynthesis mechanisms in tea plants and provide insights into the role of the GRAS transcription factor family in lignin accumulation.

csi-miR-96-5p delivered by Clonorchis sinensis extracellular vesicles promotes intrahepatic cholangiocarcinoma proliferation and migration via the ferroptosis-related PTEN/SLC7A11/GPX4 axis.

BACKGROUND: Clonorchis sinensis (CS) is classified as a group 1 carcinogen and can cause intrahepatic cholangiocarcinoma (ICC). CS extracellular vesicles (CsEVs) play important roles in mediating communication between parasitic helminths and humans. Ferroptosis is a novel cell death mechanism that is mainly induced by lipid peroxidation and iron overload. However, the role of CsEVs in the regulation of ferroptosis in ICC remains unclear. This study aimed to explore the role of CS-secreted miR-96-5p (csi-miR-96-5p) delivered by CsEVs in ICC progression and ferroptosis. METHODS: Tissue samples were collected from ICC patients with CS infection (CS-ICC) or without CS infection (NC-ICC). The levels of csi-miR-96-5p and PTEN gene were determined by quantitative polymerase chain reaction (qPCR) and western blotting, and survival analysis was performed. CsEVs were isolated and identified by ultracentrifugation and transmission electron microscopy. Lentiviruses were used to establish stable cell lines with csi-miR-96-5p mimic expression, PTEN overexpression (PTEN-EXO) and PTEN CRISPR/Cas9-based knockout (PTEN-KO) and their respective negative controls. Cell proliferation was assessed by performing Cell Counting Kit-8 assays in vitro and in a tumor xenograft model in vivo, and cell migration was assessed by performing Transwell assays. Erastin is used to induce ferroptosis. Ferroptosis levels were evaluated using biomarkers. RESULTS: High csi-miR-96-5p and low PTEN expression was observed in CS-ICC tissues and was associated with poor overall survival. csi-miR-96-5p was highly enriched in CsEVs and was taken up by ICC cells. csi-miR-96-5p mimics or PTEN-KO significantly promoted the growth and migration of ICC cells in vitro and in vivo, whereas PTEN-EXO exerted the opposite effect. Mechanistically, csi-miR-96-5p mimics or PTEN-KO inhibited erastin-induced ferroptosis, including reducing the accumulation of Fe2+, lipid reactive oxygen species, and malondialdehyde, increasing the GSH/GSSG ratio and levels of SLC7A11 and GPX4, whereas PTEN-EXOs exerted the opposite effect. CONCLUSIONS: csi-miR-96-5p delivered by CsEVs reduced ferroptosis by regulating the expression of the PTEN/SLC7A11/GPX4 axis, thereby promoting ICC proliferation and migration. For the first time to our knowledge, we found that CS miRNAs could promote tumor development through ferroptosis.

Molecular markers in tea plant (Camellia sinensis): Applications to evolution, genetic identification, and molecular breeding.

Tea plants have a long cultivation history in the world, and the beverage (tea) made from its leaves is well known in the world. Due to the characteristics of self-incompatibility, long-term natural and artificial hybridization, tea plants have a very complex genetic background, which make the classification of tea plants unclear. Molecular marker, one type of genetic markers, has the advantages of stable inheritance, large amount of information, and high reliability. The development of molecular marker has facilitated the understanding of complex tea germplasm resources. So far, molecular markers had played important roles in the study of the origin and evolution, the preservation and identification of tea germplasms, and the excellent cultivars breeding of tea plants. However, the information is scattered, making it difficult to understand the advance of molecular markers in tea plants. In this paper, we summarized the development process and types of molecular markers in tea plants. In addition, the application advance of these molecular markers in tea plants was reviewed. Perspectives of molecular markers in tea plants were also systematically provided and discussed. The elaboration of molecular markers in this paper should help us to renew understanding of its application in tea plants.

Transfer of the zp3a gene results in changes in egg adhesiveness and buoyancy in transgenic zebrafish.

Reproductive strategies and spawning habits play key roles in the evolution of endemic East Asian cyprinids. However, the molecular mechanisms underlying the regulation of spawning habits are not well understood. We recently identified zona pellucida (Zp) as the top differentially expressed protein between East Asian cyprinids that produce adhesive and semi-buoyant eggs, suggesting that Zp protein may play important roles in the regulation of egg type. In this work, we generated transgenic zebrafish in which oocyte-specific expression of zp genes from rare minnow ( Gobiocypris rarus), an East Asian cyprinid laying adhesive eggs, was driven by a zebrafish zp3.2 gene promoter. We found that the transgenic eggs obtained partial adhesiveness and exhibited alteration in hydration and buoyancy. Abnormal metabolism of vitellogenin (VTG) may contribute to enhanced hydration and/or buoyancy. Our work shows that expression of the exogenous zp3a gene from an adhesive-egg producing fish is sufficient to induce changes in both egg adhesiveness and buoyancy in zebrafish, emphasizing the important role of zp genes in the regulation of spawning habits. Our results thus provide new insights into how endemic East Asian cyprinids may have adapted to the Yangtze river-lake system via changes in spawning habits.

[Mechanism of acupuncture and moxibustion in ameliorating liver injury induced by DDP by regulating apoptosis factors Caspase-3, Caspase-8 and Caspase-9].

OBJECTIVE: To investigate the mechanism of the effect of acupuncture and moxibustion on improving liver injury by observing the changes of cysteine protease (Caspase) associated with hepatocyte apoptosis based on cisplatin (DDP) induced liver injury model mice. METHODS: Forty KM mice were randomly divided into control group, model group, acupuncture group and moxibustion group, with 10 mice in each group. The liver injury model was replicated by intraperitoneal injection of DDP. In the acupuncture group and the moxibustion group, acupuncture and moxibustion were performed at"Dazhui"(GV14), and bilateral "Ganshu"(BL18), "Shenshu"(BL23), and "Zusanli"(ST36), respectively, once per day for 5 d. General condition of mice in each group were observed;The activities of AST, ALT and GLDH in mice serum were detected by biochemical method. ELISA and Western blot assay were used to detect Caspase-3, Caspase-8 and Caspase-9 contents and protein expression in the liver tissues of each group of mice, respectively. RESULTS: Compared with the control group, the general condition of the mice in the model group was poorer, and the Caspase-3, Caspase-8 and Caspase-9 contents and protein expressions in liver tissues and the activities of AST, ALT and GLDH in serum were increased (P<0.05). Compared with the model group, the general condition of the mice in the acupuncture and moxibustion groups improved, and the Caspase-3, Caspase-8 and Caspase-9 contents and protein expressions in liver tissues and activities of AST, ALT and GLDH in serum were decreased (P<0.05). CONCLUSION: Acupuncture and moxibustion can reduce liver injury due to DDP chemotherapy by modulating the expression of apoptotic factors Caspase-3, Caspase-8 and Caspase-9 in liver tissues of DDP model mice and improving liver function, which may be one of the mechanisms of the effect of acupuncture and moxibustion to ameliorates liver injury after DDP chemotherapy.

Effects of shading on lignin biosynthesis in the leaf of tea plant (Camellia sinensis (L.) O. Kuntze).

Shading can effectively reduce photoinhibition and improve the quality of tea. Lignin is one of the most important secondary metabolites that play vital functions in plant growth and development. However, little is known about the relationship between shading and xylogenesis in tea plant. To investigate the effects of shading on lignin accumulation in tea plants, 'Longjing 43' was treated with no shading (S0), 40% (S1) and 80% (S2) shading treatments, respectively. The leaf area and lignin content of tea plant leaves decreased under shading treatments (especially S2). The anatomical characteristics showed that lignin is mainly distributed in the xylem of tea leaves. Promoter analysis indicated that the genes involved in lignin pathway contain several light recognition elements. The transcript abundances of 12 lignin-associated genes were altered under shading treatments. Correlation analysis indicated that most genes showed strong positive correlation with lignin content, and CsPAL, Cs4CL, CsF5H, and CsLAC exhibited significant positively correlation under 40% and 80% shading treatments. The results showed that shading may have an important effect on lignin accumulation in tea leaves. This work will potentially helpful to understand the regulation mechanism of lignin pathway under shading treatment, and provide reference for reducing lignin content and improving tea quality through shading treatment in field operation.

Prolyl 4-hydroxylase subunit alpha 3 presents a cancer promotive function in head and neck squamous cell carcinoma via regulating epithelial-mesenchymal transition.

OBJECTIVE: This study aimed to explore the prognostic value and functional role of Prolyl 4-Hydroxylase Subunit Alpha 3 (P4HA3) in head and neck squamous cell carcinoma. METHODS: We downloaded the RNA-Seq dataset of head and neck squamous cell carcinoma for analyzing the expression of P4HA3 and determining its prognostic value. Head and neck squamous cell carcinoma cell lines CAL27 and FaDu were chose for gain- and loss-of-function of P4HA3 tests. mRNA and protein levels of P4HA3 in head and neck squamous cell carcinoma cells were tested by quantitative real-time PCR and western blot respectively. Cell counting Kit-8, clone formation assay, Transwell assay were used to determine the effect of P4HA3 on the proliferative, invasive and migratory capacities of head and neck squamous cell carcinoma cells. RESULTS: Bioinformatics analysis showed that P4HA3 was up-regulated in head and neck squamous cell carcinoma tissues, and had an independent prognostic value for head and neck squamous cell carcinoma patients. The outcomes of gain- and loss-of-function tests illustrated that P4HA3 significantly boosted head and neck squamous cell carcinoma cell proliferative, invasive and migratory abilities. Besides, western blot assay demonstrated that P4HA3 could remarkably activate the epithelial-mesenchymal transition process, with reduced the level of E-cadherin and up-regulated the levels of N-cadherin, Vimentin and Snail. CONCLUSION: We deduce that P4HA3 acts as an oncogene that raises tumor cell viability and metastasis partly by inducing the epithelial-mesenchymal transition process, suggesting that P4HA3 may be considered as a valuable biomarker for head and neck squamous cell carcinoma treatment.

Genome-Wide Identification and Expression Analysis of Calcineurin B-Like Protein and Calcineurin B-Like Protein-Interacting Protein Kinase Family Genes in Tea Plant.

Tea plant is an important economic crop on a global scale. Its yield and quality are affected by abiotic stress. The calcineurin B-like protein (CBL) and CBL-interacting protein kinase (CIPK) family genes play irreplaceable roles in plant development and stress resistance. More and more CBL-CIPK genes have been identified, but a few CBL-CIPK genes have been cloned and characterized in tea plants. In this study, 7 CsCBLs and 18 CsCIPKs were identified based on the tea plant genome. Physicochemical properties, phylogenetic, conserved motifs, gene structure, homologous gene network, and promoter upstream elements of these 25 genes were analyzed. Conserved motifs of these genes varied with phylogenetic tree node. From the genetic structure, members of the tea plant CIPK gene family can be divided into two types: intron rich and no intron. Many stress-related elements were found in the 2000 bp upstream of the promoter, and PlantCARE predicted that CsCBL4 contained 30 stress-related elements. PlantPAN2 shows that CsCIPK6 contains 48 ABRELATERD1; CsCIPK17 contains 37 GT1CONSENSUS; CsCIPK3 contains 64 MYBCOREATCYCB1; CsCBL3 contains 52 SORLIP1AT; CsCBL5 contains 65 SURECOREATSULTR11; and CsCIPK11 contains 83 WBOXATNPR1. In addition, eight genes were selected for quantitative real-time PCR (RT-qPCR) to detect their expression profiles under high-temperature, low-temperature, salt, and drought treatments. These genes were found to be responsive to one or more abiotic stress treatments. The expression levels of CsCBL4, CsCIPK2, and CsCIPK14 were similar, and they were homologous to AtSOS3 and AtSIP3 and AtSIP4 in Arabidopsis, which were involved in the SOS pathway. This study provides insight into the potential functions of the CsCBL and CsCIPK of tea plant.

Differentially Expressed Protein Are Involved in Dynamic Changes of Catechins Contents in Postharvest Tea Leaves under Different Temperatures.

In this study, isobaric tags for relative and absolute quantitation (iTRAQ) technology were used to investigate three samples from postharvest tea leaves that were treated at room temperature (25 °C, control group), high temperature (38 °C), and low temperature (4 °C) for 4 h. In heat and cold treatments, a total of 635 and 566 differentially expressed proteins (DEPs) were determined, respectively. DEPs were annotated to GO and KEGG databases, which revealed that DEPs involved in various aspects of biological process. Three catechins-related DEPs, CsCHI, CsF3H, and CsANR, were identified. Both catechins contents and the expression profiles of catechins biosynthesis-related genes changed significantly under different temperature treatments. The correlations between catechins contents, gene expression profiles, and DEPs were analyzed. This study provides potential new insights into the molecular basis for tea production of postharvest leaves and catechins content changes at diverse temperature conditions and will guide the improvement of tea-processing technology.

Correction to: Two MYB transcription factors (CsMYB2 and CsMYB26) are involved in flavonoid biosynthesis in tea plant [Camellia sinensis (L.) O. Kuntze].

Following publication of the original article [1], the author reported that there was a mismatch between figures and their legends.

Identification of genes revealed differential expression profiles and lignin accumulation during leaf and stem development in tea plant (Camellia sinensis (L.) O. Kuntze).

Lignin is a complex aromatic heteropolymer that plays essential roles in mechanical support, water transport, and response to biotic and abiotic stresses. The tea plant is a leaf-type beverage crop, which serves as a resource for non-alcoholic beverage tea. The content and distribution of lignin in tea plant leaves seriously affect the quality of tea. However, the biosynthetic pathways of lignin remain to be characterized in the tea plant. In the present study, lignin accumulation was investigated in tea plant leaves and stems at three developmental stages. The lignin content continuously increased during leaf and stem development in both tea plant cultivars 'Fudingdabai' and 'Suchazao.' The lignin distribution and anatomical characteristics of the tea plant leaves coincided with lignin accumulation and showed that lignin is mainly distributed in the epidermis, xylem, and vascular bundle sheath. 'Suchazao' exhibits a low lignin content and lacks a vascular bundle sheath. Twelve genes encoding the enzymes involved in the lignin biosynthesis of tea plant were identified and included CsPAL, CsC4H, Cs4CL, CsHCT, CsC3H, CsCCoAOMT, CsCCR, CsCAD, CsF5H, CsCOMT, CsPER, and CsLAC. The expression profiling of lignin biosynthesis-related genes and analysis of lignin accumulation may help elaborate the regulatory mechanisms of lignin biosynthesis in tea plant.

Two MYB transcription factors (CsMYB2 and CsMYB26) are involved in flavonoid biosynthesis in tea plant [Camellia sinensis (L.) O. Kuntze].

BACKGROUND: Flavonoids are secondary metabolites that play important roles in the entire tea plant life cycle and have potential health-promoting properties. MYB transcription factors (TFs) are considered potentially important regulators of flavonoid biosynthesis in plants. However, the molecular mechanisms by which MYB TFs regulate the flavonoid pathway in tea plant remain unknown. RESULTS: In this study, two R2R3-MYB TFs (CsMYB2 and CsMYB26) involved in flavonoid biosynthesis in tea plant were investigated. The genes encoding CsMYB2 and CsMYB26 were cloned from the tea plant cultivar 'Longjing 43'. Phylogenetic analysis showed that CsMYB2 and CsMYB26 were grouped into the proanthocyanidin biosynthesis-related MYB clade. Multiple sequence alignment revealed that conserved motif 1 in the two MYB factors was related to the bHLH TF. Subcellular localization assays suggested that CsMYB2 localized in the nucleus. Promoter analysis indicated that CsMYB2, CsMYB26 and the related structural genes contain MYB recognition elements. The expression levels of the CsMYB2 and CsMYB26 genes and the structural genes in the flavonoid biosynthesis pathway were determined in leaves from various sites in the two tea plant cultivars 'Longjing 43' and 'Baiye 1 hao'. CONCLUSIONS: The expression levels of these genes were correlated with the accumulated flavonoid content. The results demonstrated that the expression level of CsF3'H may be regulated by CsMYB2 and that CsMYB26 expression is positively correlated with CsLAR expression. The relative transcriptional level of CsMYB26 may be the main reason for the different epigallocatechin contents between the tea plant cultivars 'Longjing 43' and 'Baiye 1 hao'. Our results will serve as a reference for the potential regulatory roles of CsMYB2 and CsMYB26 in flavonoid biosynthesis in tea plant and may also assist biologists in improving tea quality.

Differentially expressed protein and gene analysis revealed the effects of temperature on changes in ascorbic acid metabolism in harvested tea leaves.

Tea is an important non-alcoholic beverage worldwide. Tea quality is determined by numerous secondary metabolites in harvested tea leaves, including tea polyphenols, theanine, caffeine, and ascorbic acid (AsA). AsA metabolism in harvested tea leaves is affected by storage and transportation temperature. However, the molecular mechanisms underlying AsA metabolism in harvested tea leaves exposed to different storage and transportation temperature conditions remain unclear. Here we performed RP-HPLC to detect dynamic changes in AsA content in tea leaves subjected to high- (38 °C), low- (4 °C), or room-temperature (25 °C) treatments. The AsA distribution and levels in the treated tea leaves were analyzed using cytological-anatomical characterization methods. The differentially expressed CsAPX1 and CsDHAR2 proteins, which are involved in the AsA recycling pathway, were identified from the corresponding proteomic data using iTRAQ. We also analyzed the expression profiles of 18 genes involved in AsA metabolism, including CsAPX1 and CsDHAR2. AsA was mainly distributed in tea leaf mesophyll cells. High- and low-temperature treatments upregulated the CsAPX1 and CsDHAR2 proteins and induced CsAPX and CsDHAR2 gene expression. These results indicated that the CsAPX1 and CsDHAR2 proteins might have critical roles in AsA recycling in tea leaves. Our results provide a foundation for the in-depth investigation of AsA metabolism in tea leaves during storage and transportation, and they will promote better tea flavor in tea production.

Transcriptome-wide identification and expression profile analysis of the bHLH family genes in Camellia sinensis.

The tea plant is an important commercial horticulture crop cultivated worldwide. Yield and quality of this plant are influenced by abiotic stress. The bHLH family transcription factors play a pivotal role in the growth and development, including abiotic stress response, of plants. A growing number of bHLH proteins have been functionally characterized in plants. However, few studies have focused on the bHLH proteins in tea plants. In this study, 120 CsbHLH TFs were identified from tea plants using computational prediction method. Structural analysis detected 23 conservative residues, with over 50% identities in the bHLH domain. Moreover, 103 CsbHLH proteins were assumed to bind DNA and encompassed 98 E-Box binders and 85 G-Box binders. The CsbHLH proteins were grouped into 20 subfamilies based on phylogenetic analysis and a previous classification system. A survey of transcriptome profiling screened 22 and 39 CsbHLH genes that were upregulated under heat and drought stress. Nine CsbHLH genes were validated using qRT-PCR. Results were approximately in accordance with transcriptome data. These genes could be induced by one or more abiotic stresses.

Genome-wide identification and expression analysis of GRAS family transcription factors in tea plant (Camellia sinensis).

GRAS proteins are important transcription factors that play multifarious roles in regulating the growth and development as well as stress responses of plants. Tea plant is an economically important leaf -type beverage crop. Information concerning GRAS family transcription factors in tea plant is insufficient. In this study, 52 CsGRAS genes encoding GRAS proteins were identified from tea plant genome database. Phylogenetic analysis of the identified GRAS proteins from tea plant, Arabidopsis, and rice divided these proteins into at least 13 subgroups. Conserved motif analysis revealed that the gene structure and motif compositions of the proteins were considerably conserved among the same subgroup. Functional divergence analysis indicated that the shifted evolutionary rate might act as a major evolutionary force driving subfamily-specific functional diversification. Transcriptome analysis showed that the transcriptional levels of CsGRAS genes under non-stress conditions varied among different tea plant cultivars. qRT-PCR analysis revealed tissue and development stage-specific expression patterns of CsGRAS genes in tea plant. The expression patterns of CsGRAS genes in response to abiotic stresses and gibberellin treatment suggested the possible multiple functions of these genes. This study provides insights into the potential functions of GRAS genes.

L-Theanine Content and Related Gene Expression: Novel Insights into Theanine Biosynthesis and Hydrolysis among Different Tea Plant (Camellia sinensis L.) Tissues and Cultivars.

L-Theanine content has tissues and cultivars specificity in tea plant (Camellia sinensis L.), the correlations of theanine metabolic related genes expression profiles with theanine contents were explored in this study. L-theanine contents in the bud and 1st leaf, 2nd leaf, 3rd leaf, old leaf, stem, and lateral root were determined by HPLC from three C. sinensis cultivars, namely 'Huangjinya', 'Anjibaicha', and 'Yingshuang', respectively. The theanine contents in leaves and root of 'Huangjinya' were the highest, followed by 'Anjibaicha', and 'Yingshuang'. The theanine contents in the leaves reduced as the leaf mature gradually, and in stem were the least. Seventeen genes encoding enzymes involved in theanine metabolism were identified from GenBank and our tea transcriptome database, including CsTS1, CsTS2, CsGS1, CsGS2, CsGOGAT-Fe, CsGOGAT-NAD(P)H, CsGDH1, CsGDH2, CsALT, CsSAMDC, CsADC, CsCuAO, CsPAO, CsNiR, CsNR, CsGGT1, and CsGGT3. The transcript profiles of those seventeen genes in the different tissues of three tea plant cultivars were analyzed comparatively. Among the different cultivars, the transcript levels of most selected genes in 'Huangjinya' were significantly higher than that in the 'Anjibaicha' and 'Yingshuang'. Among the different tissues, the transcript levels of CsTS2, CsGS1, and CsGDH2 almost showed positive correlation with the theanine contents, while the other genes showed negative correlation with the theanine contents in most cases. The theanine contents showed correlations with related genes expression levels among cultivars and tissues of tea plant, and were determined by the integrated effect of the metabolic related genes.

[Analyzing Effect of Shenmai Injection on Levels of WBC and Neutrophilic Granulocytes Using Propensity Score Method].

Objective To observe the effect of Shenmai Injection (SI) on levels of white blood cell (WBC) and neutrophilic granulocyte. Methods Case data in Hospital Information System ( HIS) were collected including patients who used SI (as the experimental group) and those who unused SI (as the control group). Data of their WBC and neutrophilic granulocyte in routine blood test were extracted. The bias of confounding factors were balanced based by propensity score matching (PSM). Data were analyzed using X² test. Results The samples after being matched (0. 661 ) was less than the samples before being matched (0. 710). Totally 5 138 cases were successfully matched in the total of 7 256 cases in the control group. There was statistical difference in increased levels of WBC and neutrophilic granulo- cyte between the two groups (X² =10. 312 ,P = 0. 027; X² =14. 228 ,P =0. 013). There was no statistical difference in decreased levels of WBC and neutrophilic granulocyte between the two groups (X² =1. 385, P = 0. 536; X² = 2. 339,P = 0. 126). Conclusion Results based the data of HIS and present research methods showed that SI might have effect on increased levels of WBC and neutrophilic granulocyte, but no effect on their decreased changes.

Impact of VKORC1 gene polymorphisms on warfarin maintenance dosage: A novel systematic review and meta-analysis of 53 studies.

OBJECTIVE: To analyze the correlation between VKORC1 gene polymorphisms and warfarin maintenance dosage, as well as the correlation of dosage of warfarin with age and ethnicity. METHODS: We retrieved related studies published between January 2000 and March 2016 from PubMed, Embase, the Cochrane Library, Web of Science, VIP, CNKI, and Wan Fang data. Two reviewers independently screened literature according to the inclusion and exclusion criteria, extracted data and crosscheck data. Then, RevMan5.3 software was used to perform a meta-analysis. RESULTS: 53 studies were included in the meta-analysis. The most prevalent genotypes were -1639 AA, 1173 TT, and 3730 GG in both Asian and Caucasians, but the distribution frequencies of all three were higher in Asians than in Caucasians. The meta-analysis showed that compared with homozygous VKORC1-1639 AA carriers, carriers of type GA, GG, and G (GA + GG) required 45% (95% confidence interval (CI) 42 - 49), 77% (95% CI 70 - 84), and 51% (95% CI 47 - 55) higher warfarin doses, respectively. Carriers of type CC, TC, and C (CC + TC) required 83% (95% CI 73 - 92), 26% (95% CI 23 - 29), and 53% (95% CI 44 - 62) higher warfarin doses, respectively, compared to homozygous VKORC1 1173 TT carriers. Carriers of type AA, GA, and A (AA + GA) required 40% (95% CI 29 - 51), 25% (95% CI 17 - 33), and 33% (95% CI 21 - 45) higher warfarin doses, respectively, compared to carriers of the homozygous VKORC1 3730 GG polymorphism (all p < 0.05). Subgroup analysis showed that Asian patients aged ≤ 60 years carrying 1173 CC, TC, and C genotypes required 28%, 39%, and 22% higher warfarin doses, respectively, compared with patients aged > 60 years. Caucasian patients aged > 60 years carrying -1639 GA, GG and G genotypes needed 24%, 39%, and 37% lower warfarin doses, respectively, compared with patients aged ≤ 60 years. These differences were statistically significant (p < 0.05). CONCLUSIONS: Our study showed that the relationship between VKORC1 gene polymorphisms and warfarin maintenance dose differs between individuals, and that individuals with different ages and ethnicities require different doses of warfarin. Caucasians carriers of genotype -1639 GG, G and 1173 CC, TC, C required a higher mean daily warfarin doses compared with Asian patients. Therefore, in order to achieve optimal treatment and lowest risk, VKORC1 gene polymorphism detection is suggested.
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Transcriptome-Wide Identification and Expression Analysis of the NAC Gene Family in Tea Plant [Camellia sinensis (L.) O. Kuntze].

In plants, the NAC (NAM-ATAF1/2-CUC) family of proteins constitutes several transcription factors and plays vital roles in diverse biological processes, such as growth, development, and adaption to adverse factors. Tea, as a non-alcoholic drink, is known for its bioactive ingredients and health efficacy. Currently, knowledge about NAC gene family in tea plant remains very limited. In this study, a total of 45 CsNAC genes encoding NAC proteins including three membrane-bound members were identified in tea plant through transcriptome analysis. CsNAC factors and Arabidopsis counterparts were clustered into 17 subgroups after phylogenetic analysis. Conserved motif analysis revealed that CsNAC proteins with a close evolutionary relationship possessed uniform or similar motif compositions. The distribution of NAC family MTFs (membrane-associated transcription factors) among higher plants of whose genome-wide has been completed revealed that the existence of doubled TMs (transmembrane motifs) may be specific to fabids. Transcriptome analysis exhibited the expression profiles of CsNAC genes in different tea plant cultivars under non-stress conditions. Nine CsNAC genes, including the predicted stress-related and membrane-bound genes, were examined through qRT-PCR (quantitative real time polymerase chain reaction) in two tea plant cultivars, namely, 'Huangjinya' and 'Yingshuang'. The expression patterns of these genes were investigated in different tissues (root, stem, mature leaf, young leaf and bud) and under diverse environmental stresses (drought, salt, heat, cold and abscisic acid). Several CsNAC genes, including CsNAC17 and CsNAC30 that are highly orthologous to known stress-responsive ANAC072/RD26 were identified as highly responsive to abiotic stress. This study provides a global survey of tea plant NAC proteins, and would be helpful for the improvement of stress resistance in tea plant via genetic engineering.