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"ABSTRAKLatar Belakang : Proses pematangan spermatozoa terjadi melalui interaksi spermatozoa dengan protein yang disekresikan ke lumen oleh sel-sel epitel epididimis. Sekresi protein akan menciptakan lingkungan yang mendukung proses pematangan spermatozoa. Namun gen penyandi protein yang terlibat dalam proses pematangan spermatozoa di epididmis masih belum banyak diketahui. Berdasarkan penelitian sebelumnya, gen-gen yang terlibat dalam proses pematangan spermatozoa ini memiliki kriteria antara lain protein sekretori, terekspresi spesifik di epididimis, dan menunjukkan eskpresi regional, diregulasi oleh faktor androgen dan faktor testikular. Defb30 merupakan salah satu gen yang perlu dilakukan karakterisasi lebih lanjut untuk mengetahui apakah gen tersebut memenuhi kriteria sebagai gen yang terlibat dalam proses pematangan spermatozoa. Tujuan dari penelitian ini adalah untuk melakukan karakterisasi gen Defb30 pada epididimis mencit.Desain : Penelitian ini menggunakan analisis bioinformatika dan Quantitative real-time PCR qRT-PCR .Metode : Analisis bioinformatika digunakan untuk memprediksi struktur gen, sinyal peptida dan domain fungsional. Analisis qRT-PCR digunakan untuk mengukur ekspresi relatif gen Defb30 terhadap analisis sebaran jaringan, regulasi terhadap androgen dan faktor testikular serta postnatal development.Hasil : Analisis sinyal peptida menggunakan signalP 4.1 menunjukkan bahwa Defb30 merupakan protein sekretori. Defb30 terekspresi secara spesifik di epididimis dan memiliki nilai spesifitas tinggi di bagian kaput epididimis. Ekspresi relatif gen Defb30 diregulasi oleh faktor endokrin berupa androgen, penurunan ekspresi relatif gen Defb30 terlihat pada hari pertama hingga hari ketiga gonadektomi dan testosteron diketahui mampu mencegah penurunan ekspresi Defb30 pada mencit yang telah digonadektomi. Analisis eksperimen efferent duct ligation menunjukkan gen Defb30 diregulasi oleh faktor testikular. Analisis postnatal development menunjukkan bahwa gen Defb30 mulai terekspresi pada hari ke-15 postnatal dan meningkat hingga usia dewasa.Kesimpulan : Defb30 merupakan protein sekretori yang terekspresi spesifik pada kaput epididimis dan diregulasi oleh androgen dan faktor testikluar.

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ABSTRACTBackground The process of sperm maturation occurs through interaction between sperm and proteins secreted by epididymal epithelial cells. The secretion of proteins will create micro environment suitable for spermmaturation. However, the role of protein encoding genes involved in the maturation process are not widely known. Based on previous studies the genes that are involved in spermmaturation process have characteristics such as secretory protein, specific expression in the epididymis and shows region specific expression, regulated by androgen and testicular factors. Defb30 is one of the genes that need further characterization to determine the putative function. Therefore, this study was aimed to characterize expression and regulation of Defb30 in the mouse epididymis.Methods Bioinformatics analysis was used to predict the structure of genes, peptide signals and functional domains. qRT PCR analysis was performed to measure the level of Defb30 expressionin the tissue distribution, regulation of andorgen and testicular factors and postnatal development.Result Peptide signal analysis using signalP 4.1 indicated that Defb30 was a secretory protein. Defb30 was expressed exclusively in the epididymis and had a high specificity in the caput. The expression of the Defb30 gene was regulated by androgen in which decreased of Defb30 expression was observed at the first day to the third day of gonadectomy and exogenous T was able to maintain Defb30 expression at 3d and 5d gonadectomized mice. efferent duct ligation showed that Defb30 was slightly regulated by testicular factors. Defb30 was developmentally regulated being expressed start at day 15 postnataly.Conclusions Defb30 is a secretory protein which is expressed specifically in the caput epididymis and it is regulated by androgen and testicular factors. "

"Latar belakang: Beta defensin diekspresikan terutama oleh sel epitel pada permukaan mukosa berbagai organ seperti kulit, usus, mulut dan saluran genital. Studi sebelumnya menunjukkan bahwa beta defensin 30 (Defb30) terekspresi spesifik di epididimis. Defb30 merupakan peptida kationik berukuran kecil yang diduga berperan penting pada proses pematangan spermatozoa di epididimis dan juga berperan sebagai pertahanan host terhadap infeksi mikroba. Untuk mempelajari aktivitas antimikroba Defb30 ini diperlukan analisis pada tingkat protein dan hal tersebut memerlukan protein dalam jumlah yang cukup. Karena itu perlu dilakukan suatu rekayasa genetika untuk pembuatan protein rekombinan DEFB30.Metode: Gen sintetik penyandi protein DEFB30 yang telah dioptimasi kodonnya diklona ke dalam vektor pQE-80L, suatu plasmid yang mengandung sistem ekspresi untuk prokariota. Plasmid rekombinan yang mengandung sisipan gen target dikonfirmasi dengan analisis enzim restriksi dan sekuensing. Selanjutnya plasmid rekombinan di ekpresikan ke dalam E. coli BL21 dan diinduksi menggunakan IPTG (Isopropyl-1-Thio-d-Galactopyranoside) dengan berbagai waktu inkubasi. Deteksi protein rekombinan dilakukan dengan SDS-PAGE dan westernblotting. IMAC (Immobilized Metal Affinity Chromatography) digunakan untuk mempurifikasi protein rekombinan. Uji antimikroba protein rekombinan dilakukan dengan cara pengukuran nilai optical density (OD) dan dianalisis hasilnya menggunakan uji one way anova.Hasil: Gen sintetik penyandi protein rekombinan DEFB30 berhasil dikonstruksi pada plasmid pQE-80L. Ekspresi ke dalam E. coli BL21 menghasilkan suatu protein fusi setelah diinduksi menggunakan IPTG selama 4 jam. Hasil analisis protein rekombinan dengan westernblotting menggunakan antibodi Anti-His G-HRP menunjukkan terbentuk pita tebal yang berukuran diatas 10 kDa (±12 kDa). Uji antimikroba protein rekombinan DEFB30 menunjukkan bahwa DEFB30 dapat menghambat pertumbuhan bakteri Eschericia coli dan Bacillus subtilis.Kesimpulan: Gen sintetik penyandi beta defensin 30 berhasil diklona ke dalam plasmid pQE-80L. Ekspresikan protein rekombinan DEFB30 menghasilkan suatu protein fusi berukuran ±12kDa. Protein rekombinan DEFB30 terbukti memiliki sifat antimikroba terhadap Eschericia coli dan Bacillus subtilis.

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ackground: Beta defensins are primarily expressed by epithelial cells at mucosal surfaces, such as those in skin, gut, mouth and genital tracts. Previous studies have demonstrated that beta defensin 30 (Defb30) is exclusively expressed in the epididymis. Defb30 is known as a small cationic antimicrobial peptide which plays an important role in epididymal sperm maturation and also acts as a host defence against microbial infection. Study of Defb30 role in the antimicrobial activity requires generating DEFB30 protein for characterization. For the purpose of this study, genetic engineering was done for the manufacture of the DEFB30 recombinant protein.

Methods: In this study, according to the preferred codon in E. coli, the Defb30 gene was optimized and synthesized. The gene was cloned into pQE-80L vector and subsequently expressed in E. coli BL21; using IPTG (Isopropyl-1-Thio-d-Galactopyranoside) as an inducer. Detection of recombinant protein was carried out by using SDS-PAGE and westernblotting. IMAC (Immobilized Metal Affinity Chromatography) was used to purify recombinant protein. Optical density measurement was used to analyze antimicrobial property of the DEFB30 recombinant protein.

Results: The synthetic gene was successfully constructed into pQE-80L plasmid and expression of the recombinant protein in E. coli BL21 produced a fusion protein after being induced by IPTG for 4 hours. Westernblotting analysis using Anti-His G-HRP antibody showed band above 10kDa (±12kDa). Antimicrobial assay for DEFB30 recombinant protein showed inhibition towards growth rates of Eschericia coli and Bacillus subtilis.

Conclusion: Defb30 synthetic gene was succesfully cloned into pQE-80L plasmid. Expression of recombinant DEFB30 produced a fusion protein of ±12kDa. This recombinant protein has antimicrobial property towards Eschericia coli and Bacillus subtilis."

"Latar belakang: Beta defensin diekspresikan terutama oleh sel epitel pada permukaan mukosa berbagai organ seperti kulit, usus, mulut dan saluran genital. Studi sebelumnya menunjukkan bahwa Beta defensin 30 (Defb30) terekspresi spesifik di epididimis. Defb30 merupakan peptida kationik berukuran kecil yang diduga berperan penting pada proses pematangan spermatozoa di epididimis dan juga memiliki kemampuan untuk membunuh mikroba. Untuk mempelajari aktivitas antimikroba Defb30 ini diperlukan analisis pada tingkat protein dan hal tersebut memerlukan protein dalam jumlah yang cukup. Karena itu perlu dilakukan suatu rekayasa genetika berupa perancangan gen yang mengkode Defb30, pengklonaan dan ekspresi untuk pembuatan protein rekombinan DEFB30. Metode: Gen sintetik penyandi protein DEFB30 yang telah dioptimasi kodonnya diklona ke dalam vektor pQE-80L. Plasmid rekombinan yang mengandung sisipan gen target dikonfirmasi dengan analisis enzim restriksi dan sekuensing untuk selanjutnya diekpresikan ke dalam E. coli BL21 dan diinduksi menggunakan IPTG (Isopropyl-1-Thio-d-Galactopyranoside) dengan berbagai waktu inkubasi. Deteksi protein rekombinan dilakukan dengan SDS-PAGE dan westernblotting. IMAC (Immobilized Metal Affinity Chromatography) digunakan untuk mempurifikasi protein rekombinan. Uji antimikroba protein rekombinan dilakukan dengan cara pengukuran nilai optical density (OD) dan dianalisis hasilnya menggunakan uji one way anova. Hasil: Gen sintetik penyandi protein rekombinan DEFB30 berhasil dikonstruksi pada plasmid pQE-80L. Ekspresi ke dalam E. coli BL21 menghasilkan suatu protein fusi setelah diinduksi menggunakan IPTG selama 4 jam. Hasil analisis protein rekombinan dengan westernblotting menggunakan antibodi Anti-His G-HRP menunjukkan terbentuk pita tebal yang berukuran diatas 10 kDa (±12 kDa). Uji antimikroba protein rekombinan DEFB30 menunjukkan bahwa protein tersebut dapat menghambat pertumbuhan bakteri Eschericia coli dan Bacillus subtilis.Kesimpulan: Gen sintetik penyandi beta defensin 30 berhasil diklona ke dalam plasmid pQE-80L. Ekspresi protein rekombinan DEFB30 menghasilkan suatu protein fusi berukuran ±12kDa. Protein rekombinan DEFB30 terbukti memiliki sifat antimikroba terhadap Eschericia coli dan Bacillus subtilis.

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Background: Beta defensins are primarily expressed by epithelial cells at mucosal surfaces, such as those in skin, gut, mouth and genital tract. Previous studies have demonstrated that beta defensin 30 (Defb30) is exclusively expressed in the epididymis. Defb30 is known as a small cationic antimicrobial peptide which plays an important role in epididymal sperm maturation and also acts as a host defence against microbial infection. Study of Defb30 role in the antimicrobial activity requires generating DEFB30 protein for characterization. For the purpose of this study, Defb30 gene was designed, synthesized, cloned, and expressed for the manufacture of the DEFB30 recombinant protein. Method(s): In this study, according to the preferred codon in E. coli, the Defb30 gene was optimized and synthesized. The gene was cloned into pQE-80L vector and subsequently expressed in E. coli BL21; using IPTG (Isopropyl-1-Thio-d-Galactopyranoside) as an inducer. Detection of recombinant protein was carried out by using SDS-PAGE and westernblotting. IMAC (Immobilized Metal Affinity Chromatography) was used to purify recombinant protein. Optical density measurement was used to analyze antimicrobial property of the DEFB30 recombinant protein. Results: The synthetic gene was successfully constructed into pQE-80L plasmid and expression of the recombinant protein in E. coli BL21 produced a fusion protein after being induced by IPTG for 4 hours. Westernblotting analysis using Anti-His G-HRP antibody showed band above 10kDa (±12kDa). Antimicrobial assay for DEFB30 recombinant protein showed inhibition towards growth rates of Eschericia coli and Bacillus subtilis. Conclusion: Defb30 synthetic gene was succesfully cloned into pQE-80L plasmid. Expression of recombinant DEFB30 produced a fusion protein of ±12kDa. This recombinant protein has antimicrobial property towards Eschericia coli and Bacillus subtilis."