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"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."

"Spag11a diketahui terekspresi secara spesifik pada kaput epididimis sehingga dimungkinkan protein tersebut memiliki fungsi yang spesifik untuk maturasi spermatozoa. Studi peran SPAG11A dalam maturasi spermatozoa di epididimis memerlukan produksi protein SPAG11A untuk dikarakterisasi. Tujuan dari penelitian ini adalah untuk mengklon, mengekspreesikan, dan mengkarakterisasi sifat antimikroba dari protein rekombinan SPAG11A. Insert cDNA Spag11a yang dihasilkan melalui PCR diklon ke dalam vektor pET100/D-TOPO. Plasmid rekombinan kemudian diekspresikan ke Escherichia coli BL21 DE3 star. Deteksi dari fusi protein rekombinan dilakukan dengan SDS-PAGE dan Western Blotting. IMAC Immobilized Metal Affinity Chromatography digunakan untuk mempurifikasi protein rekombinan. Uji antimikroba protein rekombinan dianalisis melalui pengukuran Optical density.PCR amplifikasi dari cDNA kaput epididimis mencit menghasilkan insert Spag11a berukuran 210bp. Insert tersebut kemudian dikloning ke dalam pET100/D-TOPO menghasilkan 1 rekombinan plasmid dari 10 koloni yang diskrining. Ekspresi rekombinan klon ke dalam E.coli BL21 menghasilkan fusi protein setelah diinduksi IPTG selama 4 jam. Fusi protein dikonfirmasi menggunakan Western Blotting menggunakan antibodi yang mengenali N-terminal His-Tag 21kDa dan protein SPAG11A. Uji antimikroba protein rekombinan SPAG11A mununjukkan tidak ada inhibisi yang signifikan terhadap laju pertumbuhan E.coli dan Bacillus subtilis. Insert Spag11a yang berukuran 210bp berhasil diklon ke dalam vektor pET100/D-TOPO. Ekspresi rekombinan Spag11a menghasilkan fusi protein berukuran 21kDa. Protein rekombinan SPAG11A tidak membawa sifat antimikroba terhadap E.coli dan B. subtilis.

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Spag11a is known to be specifically expressed in the caput region of the epididymis suggesting a specific function for sperm maturation. Study of SPAG11A role in the epididymal sperm maturation requires generating SPAG11A protein for characterization. The objective of this study was to clone, express and characterize antimicrobial property of the recombinant SPAG11A. Spag11a cDNA insert was generated by PCR and cloned in TOPO vector. Recombinant DNA plasmid was subsequently expressed in E coli BL 21 star. Detection of recombinant fusion protein was carried out using SDS PAGE and western immunobloting. IMAC Immobilized Metal Affinity Chromatography was used to purify recombinant protein. Optical density measurement was used to analyse antimicrobial property of the recombinant protein. PCR amplification of mouse caput epididymis cDNA produced a 210 bp insert of Spag11a. Cloning of the insert into TOPO pET100 resulted in 2 recombinants out of 10 colonies that were screened. Expression of recombinant clones in the E coli BL21 produced a fusion protein after being induced IPTG for 4 hours. Fusion protein was confirmed by western immunobloting using two antibodies recognizing N terminal His Tag 21 kDa and SPAG11A protein. Antimicrobial assay for SPAG11A recombinant showed no significant inhibition towards growth rates of E coli and Bacillus subtilis. A 210 bp Spag11a insert was successfully cloned into TOPO pET100 vector. Expression of recombinant spag11a produced a fusion protein of 21 kDa. SPAG11A recombinant protein does not have antimicrobial property towards E coli and B 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 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: Proses pematangan spermatozoa membutuhkan interaksi antar protein yang disintesis dan disekresikan oleh epitel epdidimis ke lumen di area tertentu. Gen yang terekspresi secara spesifik di region-region tertentu akan menciptakan lingkungan mikro yang kondusif untuk proses pematangan spermatozoa. Spink2 adalah salah satu gen yang diketahui berperan dalam pematangan spermatozoa yang ekspresinya terdekteksi di epididimis. Studi peran SPINK2 membutuhkan protein yang cukup untuk karakterisasi. Tujuan penelitian ini adalah untuk mengklon, mengekspresikan, dan menguji aktivitas protein rekombinan SPINK2.Metode: Dalam penelitian ini gen mSpink2 dikonstruksikan secara sintetis. Plasmid pQE80L digunakan sebagai vektor ekspresi dan strain sel Escherichia coli yang digunakan adalah Top10 dan BL21. Proses pengklonaan diawali dengan transformasi plasmid pQE80L-mSpink2 ke E. coli Top10 kompeten menggunakan metode heatshock. Proses ekspresi dilakukan dengan penambahan agen induksi Isopropyl-1-Thio-d-Galactopyranoside (IPTG), dipurifikasi dengan kromatografi Ni-NTA. Kemudian dilakukan uji aktivitas protease dengan pembacaan panjang gelombang 660 nm.Hasil: Plasmid pQE80L-mSpink2 terkonfirmasi berhasil diklon dengan analisis enzim restriksi dan sekuensing. Hasil elekstroforesis menunjukan adanya fragmen DNA dengan panjang 4709 pb dan 258 pb. Hasil ekspresi SDS-PAGE dan western blot menunjukkan SPINK2 berhasil terekspresi pada waktu optimum induksi jam ke-4 dan terdapat pita tebal dengan ukuran 14 kDa. Protein rekombinan SPINK2 berhasil dipurifikasi dan ditunjukan dari hasil western blot pada elusi ke-1 hingga ke-4. Hasil uji aktivitas protease menunjukan terdapat penurunan aktivitas enzim tripsin setelah diberi protein rekombinan SPINK2 dengan konsentrasi optimum 0,6 mM.Kesimpulan: Protein rekombinan SPINK2 telah berhasil dikonstruksi secara sintetis, diklon pada vektor plasmid pQE80L, diekspresikan pada E.coli strain BL21 kompeten, dan diketahui dapat menghambat aktivitas enzim protease dengan konsentrasi 0,7 mM.

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Background: The process of spermatozoa maturation requires interaction between proteins synthesized and secreted by the epididymal epithelium to the lumen in a particular area. The interaction between these protein produces a microenvironment for maturation process of spermatozoa. In this condition, it takes genes that are specifically expressed. Spink2 in one of the genes known have a role in the maturation of spermatozoa and expressed in the epididymis. The SPINK2 role study requires sufficient protein for characterization. The aim of this study was to clone, express, and protease assay of the recombinant protein SPINK2.

Methods: In this study the mSpink2 gene was constructed synthetically. The plasmid pQE80L was used as an expression vector and the cell Escherichia coli strains used were Top10 and BL21. The cloning process begins with transformation of the plasmid pQE80L-mSpink2 to a competent E. coli Top10. The expression process was carried out by adding the induction agent Isopropyl-1-Thio-d-Galactopyranoside (IPTG), purified by Ni-NTA chromatography. Then the protease activity assay was carried out with a wavelength 660 nm.

Results: The plasmid pQE80L-mSpink2 was confirmed to be cloned by restriction enzyme and sequencing analysis. The result showed that is formation of DNA with a length of 4709 bp and 258 bp. The SDS-PAGE and western blot result showed that SPINK2 was successfully expressed at the optimum time is 4th hour. There was a thick band with a size of 14 kDa. The SPINK2 recombinant protein was successfully purified and shown form the western blot. The result of the protease activity assay showed that there was a decrease in trypsin enzyme activity after being given SPINK2 recombinant protein with an optimum concentration is 0,6 mM.

Conclusion: Recombinant protein of SPINK2 has been successfully constructed synthetically, cloned, expressed, and tested for its protease inhibitor activity"

"ABSTRAKProses pematangan spermatozoa terjadi karena adanya interaksi antara protein dengan membran plasma spermatozoa. Walaupun proses pematangan spermatozoa ini sangat penting, namun gen yang berperan dalam sekresi protein di epididimis ini masih banyak yang belum dikarakterisasi. Gen-gen yang berperan dalam proses pematangan spermatozoa umumnya merupakan protein sekretorik, terekspresi pada segmen spesifik, diregulasi androgen, faktor testikular dan perkembangan postnatal. Pada penelitian sebelumnya diketahui bahwa b-defensin merupakan gen yang banyak terekspresi di organ reproduksi pria dan memiliki peran dalam pertahanan tubuh dan pematangan spermatozoa. Penelitian ini dilakukan untuk mengkarakterisasi ekspresi gen Defb20 untuk mengetahui perannya dalam proses pematangan spermatozoa. Studi in silico dilakukan untuk prediksi struktur gen, signal peptide dan domain fungsional. Quantitative real-time PCR digunakan untuk mengukur ekspresi gen Defb20 pada analisis sebaran jaringan, regulasi androgen dan faktor testikular serta postnatal developmen. Hasil penelitian mendapatkan bahwa sekuen Defb20 mengandung domain penting seperti N-myristoilation dan beberapa situs phosporilasi protein kinase yang mungkin berperan dalam mekanisme interaksi protein dengan membran plasma. Sekuen asam amino Defb20 mengandung signal peptides, mengindikasikan protein yang disekresikan dan terlibat dalam proses pematangan spermatozoa. -defensins 20 (Defb20) terekspresi spesifik di epididimis dengan ekspresi tertinggi terdapat pada kaput epididimis. Defb20 diregulasi oleh androgen yang ditunjukkan dengan adanya penurunan ekspresi Defb20 paska dilakukan gonadektomi dan kondisi ini dapat diperbaiki dengan pemberian hormon pengganti. Defb20 juga diregulasi oleh faktor testikular, yang dibuktikan dari menurunnya ekspresi Defb20 setelah ligasi pada duktus eferen (efferent duct ligation (EDL)). Defb20 mulai terekspresi pada hari ke-21 setelah lahir yang mengindikasikan gen Defb20 terekspresipada suatu periode perkembangan epididimis. Berdasarkan hasil penelitian disimpulkan bahwa Defb20 memiliki karakteristik ekspresi : mengandung signal peptide yang mengarahkan sintesis protein pada jalur sekretorik, spesifik terekspresi di epididimis, diregulasi androgen dan faktor testikular serta mulai terekspresi pada masa pubertas hingga dewasa

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ABSTRACTEpididymal sperm maturation occurs via interactions between sperm and proteins secreted by the epididymal epithelium. Although this is an important process, the genes that encode secreted proteins remain largely uncharacterized. The genes that play a role in sperm maturation process has character, among others; is a secretory protein, expressed specifically in the epididymis, regulated by androgen, testicular factor, and postnatal development. Previous studies showed that family of-defensins preferentially eaxpressed in male reproductive tracts and play an important role in both innate immunity and sperm fertility. This study aimed to characterize Defb20 to understand its role in sperm maturation. This study using in silico analyses and quantitative real-time PCR (qRT-PCR). In silico analyses were performed to predict gene structure, signal peptides and functional domains. Defb20 expression in various tissues, after gonadectomy, efferent duct ligation and postnatal development were measured using quantitative real-time RT-PCR. Defb20 sequence contains important domains such as N-myristoilation and kinase binding sites which are putatively involved in the protein activation and protein-plasma membrane interaction. The amino acid sequence of Defb20 contains signal peptides, indicating characteristic of secretory proteins involved in the sperm maturation. β-defensins 20 (Defb20) was expressed exclusively in the epididymis with the highest expression in the caput region. Defb20 was regulated by androgen showing down-regulation after gonadectomy and the expression was recovered after testosterone replacement. However, Defb20 was also regulated by testicular factors in which the expression was down-regulated after efferent duct ligation (EDL). The dependency on the androgen was further confirmed by postnatal expression analysis in which Defb20 begin to express at day21 postnatal indicating specific stage of expression after initial development of the epididymis. In conclusion, Defb20 have a potential to be involved in the epididymal sperm maturation process. Defb20 has characteristic expression; has a signal peptide sequence that directs synthesis in the secretory pathway, specifically expressed in the epididymis, androgen and testicular factors regulated, and expressed in puberty to adulthood"

"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. "

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Latar Belakang: Beberapa gen yang terekspresi spesfik di epididimis diduga

terlibat dalam proses pematangan sperma. Karakteristik gen yang terlibat dalampematangan sperma selain ekspresinya spesifik di epididimis juga dipengaruhioleh androgen, faktor testikuler, dan terekspresi pada saat masa pubertas. Salahsatu famili gen yang cukup banyak ditemukan terekspresi di epididimis adalahBeta Defensin. Gen Beta Defensin diketahui memiliki peran sebagai pertahananterhadap mikroba, namun diduga memiliki keterlibatan dalam proses pematangansperma karena ekspresinya banyak ditemukan di epididimis. Oleh karena itu,penelitian pada gen Beta Defensin terhadap perannya dalam proses pematangansperma perlu dilakukan. Berdasarkan studi sebelumnya diketahui bahwa salahsatu gen Beta Defensin yang terekspresi di epididimis yaitu Beta Defensin 2(Defb2), namun karakterisasi terhadap gen ini belum dilakukan. Dengandemikian, pada penelitian ini bertujuan untuk mengkarakterisasi gen Defb2 terkaitdengan perannya pada proses pematangan sperma.Metode: Analisis bioinformatika digunakan untuk mendapatkan informasi

mengenai struktur gen, signal peptide, dan domain fungsional pada gen Defb2.

Analisis qRT-PCR untuk mengetahui ekspresi relatif gen Defb2 pada berbagai

jaringan, regulasinya oleh androgen, pengaruh dari faktor testikular dan

ekspresinya pada perkembangan postnatal.Hasil: Defb2 merupakan protein sekretori karena memiliki signal peptide. Defb2

memiliki domain fungsional berupa N-myristoylation dan protein kinase-C. Gen

Defb2 terekspresi spesifik di epididimis khususnya pada bagian caput epididimis.

Defb2 ekspresinya dipengaruhi oleh androgen terbukti setelah perlakuan

gonadektomi, ekspresi Defb2 menjadi menurun dan kembali mengalami kenaikan

ketika diberikan testosteron eksogen. Defb2 juga ekspresinya dipengaruhi oleh

faktor testikuler terbukti setelah diberi perlakuan Efferent Duct Ligation (EDL)

maka ekspresi Defb2 langsung menurun bahkan terjadi apoptosis sel sehingga

pola ekspresi gen Defb2 sudah tidak bisa diamati. Begitu juga pada analisis

postnatal development terlihat ekspresi gen Defb2 mulai terdeteksi jelas pada hari

ke-15 yang merupakan masa pubertas mencit jantan.Kesimpulan: Defb2 merupakan gen yang terlibat dalam proses pematangan

sperma di epididimis yang dibuktikan dengan ekspresi spesifik di epididimis,

diregulasi oleh androgen dan faktor testikuler, serta mulai terekspresi pada masa

pubertas.

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Background: Some of the specific genes expression in the epididymis are

suspected to be involved in the process of sperm maturation. Characteristics of thegenes involved in sperm maturation in the epididymis-specific expression inaddition also influenced by androgens, testicular factors, and expressed at the timeof puberty. One of a family of genes that is pretty much found expressed in theepididymis is a Beta Defensins. Beta Defensin genes known to have a role as adefence against microbes, but suspected to have involvement in the process ofsperm maturation because the expression is found in the epididymis. Therefore,research on Beta Defensin genes against its role in sperm maturation processneeds to be done. Based on previous studies it is known that one of the BetaDefensin genes which expressed in the epididymis that is Beta Defensins 2(Defb2), but the characterization of this gene has not been made against. Thus,this research aims to characterize genes associated with the Defb2 role in theprocess of sperm maturation.Methods: Bioinformatics analysis was used to obtain information about the

structure of genes, signal peptides, and functional domains of the Defb2 gene.

qRT-PCR analysis to find out the relative gene expression of Defb2 on various

tissue, regulation by androgens, the effect of testicular factors and its expression

in postnatal development.Results: Defb2 is a secreted protein because it has signal peptides. Defb2 has a

functional domain in the form of N-myristoylation and kinase-C protein. Specific

genes expression of Defb2 in the epididymis is especially in the caput epididymis.

Defb2 expression influenced by androgens is proven after the gonadectomy, the

expression of Defb2 to be decreased and start increase again when exogenous

testosterone is given. Defb2 also its expression influenced by testicular factors

that proven after being given the treatment by Efferent Duct Ligation (EDL), then

the Defb2 expressions directly decreased and the cell apoptosis occurs even so

that the pattern of gene expression Defb2 already could not be observed. So also

on analysis of postnatal development seen gene expression Defb2 begins to be

detected clearly at day 15 which is a male mice puberty.Conclusions: Defb2 is a gene which is involved in the process of maturation of

sperm in the epididymis that is evidenced by specific expression in the

epididymis, be regulated by androgens and testicular factors, and as well as start

expressed at puberty.

"

"ABSTRAKSalah satu kendala yang dihadapi manusia saat ini adalah pertambahan penduduk yang tidak terkendali yang menimbulkan banyak masalah baru di berbagai aspek kehidupan. Oleh sebab itu, pengendalian pertumbuhan penduduk harus dilakukan dengan berbagai metode kontrasepsi. Pengembangan kontrasepsi pria non-hormonal dengan menghambat proses pematangan sperma di epididimis menjadi hal yang menjanjikan. Sayangnya, gen yang berperan di dalam proses pematangan sperma di epididimis masih belum banyak dipelajari. Kami menganalisis beberapa kandidat gen yang diekspresikan di epididimis, salah satunya adalah Defensin Beta-42 (Defb42). Beberapa langkah metode yang kami lakukan adalah isolasi epididimis dan ekstraksi RNA, analisis bioinformatika, dan real-time Reverse Transcriptase Polymerase Chain Reaction (RT-PCR) untuk menganalisa ketergantungan ekspresi terhadap androgen dari gen Defb42 karena pematangan sperma bergantung pada androgen. Selain itu, proses pematangan sperma juga terjadi akibat interaksi antara sperma dan protein yang disekresikan oleh epitel epididimis. Oleh sebab itu, peptida sinyal harus dianalisis juga untuk mengecek apabila gen ini adalah protein sekretori. Hasilnya adalah gen ini diregulasi oleh androgen dan memiliki peptida sinyal. Hal ini membuat gen Defb42 menjadi kandidat gen yang menjanjikan untuk diteliti lebih lanjut dalam upaya pengembangan kontrasepsi non-hormonal pada pria.

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ABSTRACTOne of the problem nowadays is the uncontrolled population growth. This raises many other problems in every aspect of life. Therefore, the population growth must be controlled with many types of contraceptive agents. The development of male non-hormonal contraceptive agent by inhibiting the sperm maturation process in epididymis seems to be promising. We analyzed several candidates of gene which are expressed in epididymis; one of them is Defensin Beta-42 (Defb42) gene. Several method we conducted in this research are epididymis isolation and RNA extraction, bioinformatics analysis, and real time Reverse Transcriptase Polymerase Chain Reaction (RT-PCR) to analyze the expression dependency towards androgen of Defb42 gene because the sperm maturation is androgen-dependent process. Besides, the sperm maturation process occurs due to the interaction between sperm and protein secreted by epididymal epithelium. Therefore, the signal peptide has to be analyzed to confirm whether the candidate gene is a secretory protein. The results are this gene is regulated by androgen and has signal peptide properties. Therefore we can conclude that the gene is promising to be studied further in effort to develop male non-hormonal contraceptive agent."

"Epididimis adalah saluran berbelit yang terletak antara testis dan vas deferens. Epididimis telah lama dikenal sebagai tempat proses pematangan sperma, yang merupakan interaksi antara sperma dan protein-protein yang disekresikan oleh sel-sel epitel epididimis. Salah satu protein yang diduga berperan penting dalam proses pematangan sperma adalah gen Defb42. Tujuan penelitian ini adalah untuk mengetahui struktur gen dan analisis sebaran jaringan dari gen Defb42. Data struktur gen Defb42 diperoleh dari database Unigene danUCSC Genome Bioinformatics, dimana cDNA, ekson, intron, dan sekuens asam amino diperoleh. Isolasi RNA dilakukan untuk jaringan dari 4 segmenepididimis (initial segment, caput, corpus, cauda) disertai dengan beberapa organ viseral lainnya. Real time RT-PCR dari RNA yang terelusi dilakukan untuk mengukur ekspresi relative Defb42 terhadap gen aktin beta. Hasil penelitian menunjukkan bahwa Defb42 termasuk dalam keluarga beta defensin karena memiliki 6 residu sistein. Ekspresi Defb42 relatif terhadap aktin ditemukan paling tinggi di initial segment dariepididimis, diikuti dengan caput, cauda, dan vas deferens. Disimpulkan bahwa gen Defb42 adalah gen beta defensin dan diekspresikan terutama di initial segment dari epididimis.

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Epididymis is a convoluted duct that is located between the testis and vas deferens. Epididymis has been known as the site of sperm maturation, which occur via interaction between the sperm and the proteins secreted by the epididymal epithelial cells. One of the proteins that is believed to play a major role in sperm maturation process is encoded by Defb42 gene. The objective of this research is to know the gene structure and tissue distribution analysis of Defb42 gene. Gene structure data was obtained from Unigene database and UCSC Genome Bioinformatics, in which cDNA, exons, introns, and amino acid sequence of Defb42 gene were received. RNA isolation was done for tissues of the four segments of epididymis (initial segment, caput, corpus, cauda) along with other visceral tissues. Real time RT-PCR of the isolated RNA was then performed in order to measure Defb42 relative expression to beta actin. The result showed that Defb42 gene belongs to the beta defensin family due to its conserved six cysteine residues. Defb42 expression relative to actin was highest in the initial segment of the epididymis, followed by caput, cauda, and vas deferens. In conclusion, Defb42 is a beta defensin gene and is mainly expressed in the epididymis and showed region-specific expression in the initial segment."

"Protein NS3 pada Dengue Virus DENV Serotipe 3 DENV-3 adalah protein nonstruktural yang memiliki berat molekul 72 kDa dan bertanggung jawab dalam siklus replikasi virus dengue. Protein tersebut dapat dijadikan kandidat vaksin rekombinan subunit penyakit Demam Berdarah DBD . Penelitian ini bertujuan untuk validasi hasil kloning gen NS3 DENV-3 ke vektor pYES2/CT sebelumnya, ekspresi dan purifikasi protein rekombinan dari sel Saccharomyces cerevisiae. Uji validitas dengan metode PCR dan analisa sekuensing DNA menunjukkan bahwa gen NS3 DENV-3 pada klon 2 dan 11 memiliki validitas yang tinggi terinsersi pada plasmid pYES2CT >90. Hasil ekspresi transforman Saccharomyces cerevisiae pYES2/CT dengan metode SDS PAGE dan Western Blot menunjukkan adanya pita spesifik berukuran 72 kDA pada sampel 2A dan 8B. Hasil purifikasi sampel yang sudah terverifikasi ekspresinya sampel 2A dengan mekanisme elusi gradien menunjukkan adanya protein spesifik yang terelusi dengan menggunakan elution buffer yang mengandung imidazol konsentrasi 350 mM.

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DENV 3 NS3 Protein is a non structural protein with molecular weight approximately around 72 kDA and responsible for replication cycle dengue virus. This protein could be a candidate for subunit recombinant vaccine of Dengue Haemorrhagic Fever DHF. The aims of this study were to validated the previous cloning result of DENV3 NS3 gene into pYES2 CT vector, expressed and purified the recombinant protein from Saccharomyces cerevisiae cells. The result of validity tests with PCR method and DNA sequencing showed NS3 gene in clone 2 and 11 had high validity were inserted on plasmid pYES2 CT 90. The result of the expression in transformant Saccharomyces cerevisiae pYES2 CT with SDS PAGE and Western Blot methods showed there was a specific band with size 72 kDa in clone 2A and 8B. The result of verified clone clone 2A with gradient elution mechanism showed there was a specific protein that was eluted by elution buffer which contained 350 mM imidazole."