1.Research advances of herpesvirus gB gene and its encoding protein.
Long JIANG ; Hui-juan LIU ; An-chun CHENG ; Ming-shu WANG ; Zheng-li CHEN ; Ren-yong JIA ; De-kang ZHU ; Xiao-yue CHEN
Chinese Journal of Virology 2010;26(5):414-417
Glycoproteins
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genetics
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metabolism
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Herpesviridae
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genetics
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metabolism
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Viral Proteins
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genetics
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metabolism
2.Expressions of short palate, lung and nasal epithelium clone 1 in different human tissues.
Shuang WANG ; Wen-Lu LI ; Li-Chun LÜ ; Kai-Tai YAO
Journal of Southern Medical University 2016;36(5):617-621
OBJECTIVETo examine the expression patterns of short palate, lung and nasal epithelium clone 1 (SPLUNC1) gene in human tissues.
METHODSIn situ hybridization was used to detect the expression of SPLUNC1 gene in 37 different human tissues.
RESULTSWe found that SPLUNC1 gene was not expressed in squamous epithelial cells of the palate, epidermis, esophagus, or the esophagus-cardia junction, metaplastic squamous cells in the nasopharynx, trachea, or uterus cervix, or tumor cells of esophageal squamous cell carcinoma or lung squamous cell carcinoma. SPLUNC1 gene was not expressed in the single layer columnar epithelia cells in the stomach, gallbladder, jejunum, colon, endometrium, or uterus cervix. SPLUNC1 expression was detected mainly in pseudostratified columnar epithelial cells in the nasopharynx, trachea and bronchi, and was gradually down-regulated from the upper to lower end of the respiratory tract, but was not detected in the lung tissues. SPLUNC1 expression was detected not only in the duct and serous gland cells in the parotid and submandibular glands, but also in cells of submucosal serous glands in the nasopharynx and lung, but not in the cells of the mucosal glands. The parietal cells of the gastric submucosa and epithelial cells of the lobula and ducts of the mammary glands expressed SPLUNC1. The adenocarcinoma cells in the lung, stomach, colon, mammary gland, uterus endometrium and cervix showed strong expressions of SPLUNC1 gene.
CONCLUSIONSPLUNC1 expression is highly cell-specific in association with the cell functions.
Epithelial Cells ; metabolism ; Gene Expression ; Glycoproteins ; genetics ; metabolism ; Humans ; Organ Specificity ; Phosphoproteins ; genetics ; metabolism
3.Effect of the chicken zp1 gene on osteoblast mineralization.
Qiaoxian YUE ; Chenxuan HUANG ; Yinliang ZHANG ; Hui CHEN ; Rongyan ZHOU
Chinese Journal of Biotechnology 2023;39(7):2684-2694
The aim of this study was to clone the chicken zp1 gene encoding zona pellucida 1 (Zp1) and investigate its tissues expression profile and its effect on osteoblast mineralization. The expression level of zp1 was quantified in various tissues of laying hens and in the tibia of the pre- and post-sexual maturity by RT-qPCR. Zp1 overexpressed vector was transfected into chicken calvarial osteoblasts which were induced differentiation for 8 days, and the extracellular mineral and the expression of mineralization-related genes were detected. The full-length chicken zp1 gene is 3 045 bp, encoding 958 amino acids residuals, and has two N-glycosylation sites. The highest expression level of the zp1 gene was found in the liver, followed by the tibia and yolk membrane, while no expression was detected in the heart and eggshell gland. Compared with the pre-sexual maturity hens, the concentration of estrogen (E2) in plasma, the content of glycosaminoglycan (GAG) and the expression level of the zp1 gene in the tibia with post-sexual maturity were higher. The extracellular matrix and the level of osteoblast mineralization-related genes showed a significantly upregulated expression in chicken calvarial osteoblasts with Zp1 overexpressed and addition of estrogen. The expression of the zp1 gene is tissue-specific and positively regulated osteoblast mineralization under the action of estrogen, laying the foundation for elucidating the functional properties of Zp1 in chicken bones during the egg production period.
Female
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Animals
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Zona Pellucida Glycoproteins
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Membrane Glycoproteins/metabolism*
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Chickens/genetics*
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Egg Proteins/metabolism*
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Receptors, Cell Surface
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Estrogens
4.Expression of Mucin Genes in the Human Testis and Its Relationship to Spermatogenesis.
Ju Tae SEO ; Joong Shik LEE ; Jin Hyun JUN ; Moon Ho YANG
Yonsei Medical Journal 2005;46(5):667-672
In this study we investigate the expression pattern of mucin genes in the human testis and evaluate the relationship between the expression of mucin genes and impaired spermatogenesis in the human testis. Thirty human testis tissues were collected from patients undergoing diagnostic testicular biopsy to investigate the cause of infertility. One part of the tissue underwent histological observation, and the other part of the tissue was subjected to semiquantitative RT-PCR of mucin genes, that is, mucin1, 2, 3, 4, and 9. The relative amount of mucin mRNAs was calculated by densitometry using glyceraldehydes-3-phosphate dehydrogenase (GAPDH) as an internal control. The samples were histologically diagnosed as either obstructive azoospermia with normal spermatogenesis (n = 13) or non-obstructive azoospermia with impaired spermatogenesis (n = 17). In the human testis with normal spermatogenesis, mRNA expression of mucin1, 9, 13 and GAPDH were found, but RT-PCR products of mucin 2, 3 and 4 were not detected. In the testis with impaired spermatogenesis, however, RT-PCR product of mucin1 was not found. There was no difference in the other mucin mRNA expression patterns between the testis with either normal or impaired spermatogenesis. To our knowledge, this study is the first that has detected the mRNA of mucin9 and 13 in human testis. This study also shows that mucin1 expression might be closely related to spermatogenesis. Our findings should be substantiated by more direct evidence, such as mucin protein expression and localization.
Testis/*metabolism
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*Spermatogenesis
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Mucins/*genetics
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Middle Aged
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Male
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Humans
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Glycoproteins/genetics
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Antigens, Neoplasm
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Antigens/genetics
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Adult
5.Expression of recombinant human ZP3 protein using the baculovirus expression system.
Hui LU ; Hua DIAO ; Yu-fang XIAO ; He-guo YU ; Zheng LI ; Hui-juan SHI
National Journal of Andrology 2014;20(11):978-983
OBJECTIVETo investigate the methods and solve the technical bottlenecks in the preparation of recombinant human protein hZP3 using the baculovirus expression system and pave the technical ground for the production and application of recombinant hZP3.
METHODSThe recombinant vector pFASTBAC HTa-hZP3 was constructed and transferred to competent E. coli cells carrying bacmid to produce recombinant bacmid by homologous recombination. Sf9 cells were transfected with the recombinant bacmid to produce recombinant baculovirus. Full-length recombinant hZP3 (amino acids 1-424) and truncated recombinant hZP3 (amino acids 23-348) were expressed in the sf9 cells by infection with the recombinant baculovirus. The expression time of hZP3 was determined by Western blot and its purification was explored.
RESULTSThe recombinant bacmid and baculovirus were successfully constructed for expressing both the full-length and truncated hZP3. The maximal expression of recombinant hZP3 in the sf9 cells was achieved at 72-96 hours after baculovirus infection. Some of the recombinant hZP3 with His-tag could bind affinity matrix and got purified but most of the solubilized hZP3 passed through and the reasons remained unknown. Purified recombinant hZP3 labeled with Dylight Dye488 was able to bind human sperm.
CONCLUSIONIt is feasible to express recombinant hZP3 in insect cells using the baculovirus system though the yield of hZP3 needs to be optimized. The methods for efficient enrichment and purification of recombinant hZP3 require further exploration.
Baculoviridae ; genetics ; metabolism ; Blotting, Western ; Egg Proteins ; genetics ; metabolism ; Escherichia coli ; genetics ; metabolism ; Genetic Vectors ; Humans ; Membrane Glycoproteins ; genetics ; metabolism ; Receptors, Cell Surface ; genetics ; metabolism ; Recombinant Proteins ; genetics ; metabolism ; Transfection ; methods ; Zona Pellucida Glycoproteins
7.Molecular Mechanism of Glycoprotein-induced Cell-Cell Fusion of Herpesviruses.
Chinese Journal of Virology 2016;32(1):101-107
Herpesviridae is a large family comprising linear, double-stranded DNA viruses. Herpesviridae contains three subfamilies: α-, β- and γ-herpesviruses. The glycoproteins gB, gH and gL of each subfamily form the "core fusion function" in cell-cell fusion. Other herpesviruses also need additional glycoproteins to promote fusion, such as gD of the Herpes simplex virus, gp42 of the Epstein-Barr virus, and gO or UL128-131 of the Human cytomegalovirus. In contrast, glycoproteins gM or gM/gN of herpesvirus inhibit fusion. We describe the molecular mechanisms of glycoprotein-induced fusion and entry of herpesviruses. It will be helpful to further study the pathogenic mechanism of herpesvirus.
Animals
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Cell Fusion
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Glycoproteins
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genetics
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metabolism
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Herpesviridae
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genetics
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metabolism
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Herpesviridae Infections
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physiopathology
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virology
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Humans
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Viral Proteins
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genetics
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metabolism
8.Expression of recombinant human zona pellucida-3 protein (rhZP3) in Pichia pastoris.
Jian TANG ; Qi-Xuan XIE ; Shan-Pei PAN ; Luan-Juan XIAO ; Lu DONG ; Chun-Xue ZHANG ; Cai-Jun SUN
Chinese Journal of Biotechnology 2003;19(6):758-762
Human Zona Pellucida(ZP), which is a complex matrix surrounding oocytes,is comprised of three immunologically distinct glycoproteins(hZP1, hZP2 and hZP3). Because hZP3 possesses the sperm receptor activity and the acrosome-inducing activity, it has long been used as a candidate antigen to develop an immunocontraceptive vaccine. However, a large amount of native hZP3 protein is unavailable. It is an effective way to express hZP3 protein directly in vitro. Nevertheless, it had been reported that the rhZP3 protein produced in Pichia pastoris was not secreted but accumulated in the cells and could only be purified after being solubilized by strong denaturants. More unfortunately, after purification the final product required 6mol/L urea to maintain solubility. An improved project was advanced with the aim to express secreted and soluble rhZP3 protein in yeast. In this study, the fragment of hZP3 cDNA coding for aa 23 - 408, which the N-terminal leader was removed and most of the C-terminal transmembrane-like domain was reserved, was amplified by two PCR primers including EcoR I and Not I sites respectively and a His6 codon cassette was added to 5'-terminal. The hZP3 insert was incorporated into expression vector pPIC9K. The resulting recombinant yeast expression vector was designated pPIC9K-rhZP3. Linearized pPIC9K-rhZP3 was transformed into Pichia pastoris. After G418 selection, the recombinant Pichia pastoris strains were identified by PCR and the rhZP3 was expressed following the manufacturer' s protocol. Following induction with methanol, the rhZP3 protein was secreted and dissolved into the culture supernatant. SDS-PAGE and Western blot analyses showed that the apparent molecular weight of the expressed rhPZ3 proteins in yeast was smaller and a little size heterogeneity than native ones; after purified with Ni-chelating affinity chromatography, the final product's apparent molecular weight was about 32 - 34KD and their yield more than 20mg/L. We supposed that the C-terminal transmembrane-like domain be useful for secretion of rhZP3 into the culture supernatant and the expressed rhZP3 protein be incompletely digested by proteinases of Pichia into shorter fragments which all were glycosylated inhomogeneously. Fortunately, the fragments of rhZP3 protein can be recognized in Western blot by the polyclonal antibodies to porcine ZP3 which has showed a cross-reactivity with human ZP in vitro. It will be expected that the rhZP3 protein expressed in Pichia pastoris not only has immunogencity, say, it can rise antibodies in vivo to prevent spermatozoa-ovum binding, but also does not contain ovarian factors that might be the cause of undesired side effects, e.g. ovaritis and can be used as a safe immunogen in human antifertility vaccine research.
Blotting, Western
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Chromatography, Affinity
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Egg Proteins
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genetics
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metabolism
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Electrophoresis, Polyacrylamide Gel
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Genetic Vectors
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genetics
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Humans
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Membrane Glycoproteins
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genetics
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metabolism
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Pichia
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genetics
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metabolism
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Polymerase Chain Reaction
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Receptors, Cell Surface
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genetics
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metabolism
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Recombinant Proteins
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genetics
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isolation & purification
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metabolism
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Zona Pellucida Glycoproteins
9.Application of Linear Regression Model of Gpnmb Gene in Rat Injury Time Estimation.
Yan-Ru XI ; Yuan-Xin LIU ; Na FENG ; Zhen GU ; Jun-Hong SUN ; Jie CAO ; Qian-Qian JIN ; Qiu-Xiang DU
Journal of Forensic Medicine 2022;38(4):468-472
OBJECTIVES:
To investigate the effects of injury time, postmortem interval (PMI) and postmortem storage temperature on mRNA expression of glycoprotein non-metastatic melanoma protein B (Gpnmb), and to establish a linear regression model between Gpnmb mRNA expression and injury time, to provide aimed at providing potential indexes for injury time estimation.
METHODS:
Test group SD rats were anesthetized and subjected to blunt contusion and randomly divided into 0 h, 4 h, 8 h, 12 h, 16 h, 20 h and 24 h groups after injury, with 18 rats in each group. After cervical dislocation, 6 rats in each group were collected and stored at 0 ℃, 16 ℃ and 26 ℃, respectively. The muscle tissue samples of quadriceps femoris injury were collected at 0 h, 12 h and 24 h postmortem at the same temperature. The grouping method and treatment method of the rats in the validation group were the same as above. The expression of Gpnmb mRNA in rat skeletal muscle was detected by RT-qPCR. The Pearson correlation coefficient was used to evaluate the correlation between Gpnmb mRNA expression and injury time, PMI, and postmortem storage temperature. SPSS 25.0 software was used to construct a linear regression model, and the validation group data was used for the back-substitution test.
RESULTS:
The expression of Gpnmb mRNA continued to increase with the prolongation of injury time, and the expression level was highly correlated with injury time (P<0.05), but had little correlation with PMI and postmortem storage temperature (P>0.05). The linear regression equation between injury time (y) and Gpnmb mRNA relative expression (x) was y=0.611 x+4.489. The back-substitution test proved that the prediction of the model was accurate.
CONCLUSIONS
The expression of Gpnmb mRNA is almost not affected by the PMI and postmortem storage temperature, but is mainly related to the time of injury. Therefore, a linear regression model can be established to infer the time of injury.
Animals
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Rats
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Glycoproteins
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Linear Models
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Melanoma
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Membrane Glycoproteins/genetics*
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Postmortem Changes
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Rats, Sprague-Dawley
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RNA, Messenger/metabolism*
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Time Factors
10.Dental and periodontal phenotype in sclerostin knockout mice.
Ulrike KUCHLER ; Uwe Y SCHWARZE ; Toni DOBSAK ; Patrick HEIMEL ; Dieter D BOSSHARDT ; Michaela KNEISSEL ; Reinhard GRUBER
International Journal of Oral Science 2014;6(2):70-76
Sclerostin is a Wnt signalling antagonist that controls bone metabolism. Sclerostin is expressed by osteocytes and cementocytes; however, its role in the formation of dental structures remains unclear. Here, we analysed the mandibles of sclerostin knockout mice to determine the influence of sclerostin on dental structures and dimensions using histomorphometry and micro-computed tomography (μCT) imaging. μCT and histomorphometric analyses were performed on the first lower molar and its surrounding structures in mice lacking a functional sclerostin gene and in wild-type controls. μCT on six animals in each group revealed that the dimension of the basal bone as well as the coronal and apical part of alveolar part increased in the sclerostin knockout mice. No significant differences were observed for the tooth and pulp chamber volume. Descriptive histomorphometric analyses of four wild-type and three sclerostin knockout mice demonstrated an increased width of the cementum and a concomitant moderate decrease in the periodontal space width. Taken together, these results suggest that the lack of sclerostin mainly alters the bone and cementum phenotypes rather than producing abnormalities in tooth structures such as dentin.
Animals
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Female
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Glycoproteins
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genetics
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Mice
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Mice, Knockout
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Periodontium
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metabolism
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Phenotype
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Tooth
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metabolism