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"Lesi fokal otak merupakan komplikasi neurologi pada pasien HIV yang ditandai oleh lesi desak ruang (Space Occupying Lesion) yang membutuhkan penanganan cepat dan tepat. Di beberapa negara, lesi ini dapat disebabkan oleh toksoplasma ensefalitis dan limfoma otak primer. Lesi yang disebabkan oleh toksoplasmosis dan limfoma otak primer yang disebabkan oleh Epstein Barr virus sulit untuk dibedakan menggunakan CT scan ataupun MRI. Pemeriksaan gold standar untuk membedakan keduanya yaitu dengan biopsi otak, namun hal ini merupakan tindakan invasif dan dapat menimbulkan komplikasi. Penelitian ini bertujuan untuk memperoleh uji deteksi untuk diagnosis cepat infeksi Toxoplasma gondii dan Epstein Barr virus. Desain yang dipakai pada penelitian adalah studi eksperimental laboratorium. Uji deteksi yang dikembangkan adalah dupleks real-time PCR yang dapat mendeteksi T.gondii dan EBV atau kombinasi keduanya dalam satu reaksi pada sampel pasien HIV dengan gejala klinis tersangka infeksi otak. Tahap pertama dilakukan optimasi dupleks real-time PCR meliputi suhu annealing, konsentrasi primer dan probe, uji volume elusi dan volume cetakan. Penentuan ambang batas deteksi dilakukan untuk mengukur minimal T.gondii dan EBV yang dapat dideteksi. Reaksi silang untuk mengetahui spesifisitas teknik dilakukan menggunakan bakteri dan virus sebagai berikut Staphylococcus aureus, Klebsiella pneumonia, Pseudomonas aeruginosa, Mycobacterium tuberculosis H37Rv, Candida spp, Cytomegalo virus, Herpes zoster virus, dan Varicella zoster virus. Dupleks real-time PCR yang telah optimal diaplikasi pada sampel pasien. Sampel yang digunakan adalah darah dan cairan serebrospinal dari pasien HIV dengan gejala klinis infeksi otak yang dirawat di bagian neurologi RSCM. Hasil optimasi dupleks real-time PCR diperoleh suhu annealing untuk T.gondii dan EBV 58°C, konsentrasi primer forward dan reverse untuk T.gondii dan EBV adalah 0,2 µM, konsentrasi probe T.gondii 0,4µM, konsentrasi probe EBV 0,2 µM. Deteksi ambang batas minimal DNA untuk T.gondii 5,68 copy /ml, sedangkan EBV 1,31 copy/ml. Uji yang dikembangkan pada penelitian ini termasuk uji yang sensitif dibandingkan hasil penelitian lain. Uji reaksi silang primer dan probe dupleks real-time PCR terhadap beberapa bakteri dan virus lain, menunjukkan tidak bereaksi silang dengan primer dan probe yang digunakan untuk mendeteksi T.gondii dan EBV. Hasil pemeriksaan dupleks real-time PCR pada sampel darah diperoleh 16% positif T.gondii, 40% positif Epstein Barr virus, sebanyak 16% positif Epstein Barr virus dan T.gondii dan pada sampel cairan serebrospinal diperoleh hasil 20% positif T.gondii, sebanyak 28% positif Epstein Barr virus dan 4% positif terhadap Epstein Barr Virus dan T.gondii.

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Focal brain lesion is neurology complication in HIV that marked with Space Occupying Lesion (SOL), that need rapid and effective handling. In most country, this lesion could be cause by encephalitis toxoplasma and Primary Central Nervous System Lymphoma that related to Epstein Barr virus infection that was difficult to distinguished using CT scan or MRI. Gold standard to distinguished was brain biopsy, but this examination was invasive procedure that cause complication. Therefore, we need a reliable and rapid examination to distinguished it. This study aimed to get detection for rapid diagnosis of T.gondii and EBV infection. This study was an experimental laboratory. First step was optimation of dupleks real-time PCR include annealing temperature, primer andprobe consentration, elution volume and template volume. Minimal detection of DNA to measured minimal T.gondii and EBV that could be detected. Cross reaction to know technique spesivisity using bacterial and virus Staphylococcus aureus, Klebsiella pneumonia, Pseudomonas aeruginosa, Mycobacterium tuberculosis H37Rv, Candida spp, Cytomegalo virus, Herpes zoster virus, and Varicella zoster virus. Dupleks real-time PCR has been optimally applied to patient. The sample from blood and cerebrospinal fluid of HIV patients who admitted in the neurology department of RSCM then examined to duplex real-time PCR to detect T.gondii and EBV. The optimation of duplex real-time PCR, the annealing temperature for T.gondii and EBV were 58°C, consentration of primer forward and reverse for T.gondii and EBV were 0,2 µM, consentration of probe for T.gondii was 0,4µM and EBV was 0,2µM.. Minimal DNA detection for T.gondii was 5,68 copy/ml and EBV was 1,31 copy /ml. This study was sensitive like the others. Spesivisity technique of real-time PCR, there was not cross reaction between another bacteria and virus that used as primer and probe for T.gondii and EBV. From the results of the duplex real-time PCR on blood samples, 16 % was positive T.gondii, 40% Epstein Barr virus, and 16% were positive Epstein Barr virus and T.gondii and from cerebrospinal fluid samples 20% was positive T.gondii, 28% was positive Epstein Barr virus and 4% were positive for Epstein Barr Virus and T.gondii."

"ABSTRAK Lesi fokal otak merupakan komplikasi neurologi pada pasien HIV yang ditandai oleh lesi desak ruang (Space Occupying Lesion) yang membutuhkan penanganan cepat dan tepat. Di beberapa negara, lesi ini dapat disebabkan oleh toksoplasma ensefalitis dan limfoma otak primer. Lesi yang disebabkan oleh toksoplasmosis dan limfoma otak primer yang disebabkan oleh Epstein Barr virus sulit untuk dibedakan menggunakan CT scan ataupun MRI. Pemeriksaan gold standar untuk membedakan keduanya yaitu dengan biopsi otak, namun hal ini merupakan tindakan invasif dan dapat menimbulkan komplikasi. Penelitian ini bertujuan untuk memperoleh uji deteksi untuk diagnosis cepat infeksi Toxoplasma gondii dan Epstein Barr virus. Desain yang dipakai pada penelitian adalah studi eksperimental laboratorium. Uji deteksi yang dikembangkan adalah dupleks real-time PCR yang dapat mendeteksi T.gondii dan EBV atau kombinasi keduanya dalam satu reaksi pada sampel pasien HIV dengan gejala klinis tersangka infeksi otak. Tahap pertama dilakukan optimasi dupleks real-time PCR meliputi suhu annealing, konsentrasi primer dan probe, uji volume elusi dan volume cetakan. Penentuan ambang batas deteksi dilakukan untuk mengukur minimal T.gondii dan EBV yang dapat dideteksi. Reaksi silang untuk mengetahui spesifisitas teknik dilakukan menggunakan bakteri dan virus sebagai berikut Staphylococcus aureus, Klebsiella pneumonia, Pseudomonas aeruginosa, Mycobacterium tuberculosis H37Rv, Candida spp, Cytomegalo virus, Herpes zoster virus, dan Varicella zoster virus. Dupleks real-time PCR yang telah optimal diaplikasi pada sampel pasien. Sampel yang digunakan adalah darah dan cairan serebrospinal dari pasien HIV dengan gejala klinis infeksi otak yang dirawat di bagian neurologi RSCM. Hasil optimasi dupleks real-time PCR diperoleh suhu annealing untuk T.gondii dan EBV 58°C, konsentrasi primer forward dan reverse untuk T.gondii dan EBV adalah 0,2 µM, konsentrasi probe T.gondii 0,4µM, konsentrasi probe EBV 0,2 µM. Deteksi ambang batas minimal DNA untuk T.gondii 5,68 copy /ml, sedangkan EBV 1,31 copy/ml. Uji yang dikembangkan pada penelitian ini termasuk uji yang sensitif dibandingkan hasil penelitian lain. Uji reaksi silang primer dan probe dupleks real-time PCR terhadap beberapa bakteri dan virus lain, menunjukkan tidak bereaksi silang dengan primer dan probe yang digunakan untuk mendeteksi T.gondii dan EBV. Hasil pemeriksaan dupleks real-time PCR pada sampel darah diperoleh 16% positif T.gondii, 40% positif Epstein Barr virus, sebanyak 16% positif Epstein Barr virus dan T.gondii dan pada sampel cairan serebrospinal diperoleh hasil 20% positif T.gondii, sebanyak 28% positif Epstein Barr virus dan 4% positif terhadap Epstein Barr Virus dan T.gondii. ABSTRACT Focal brain lesion is neurology complication in HIV that marked with Space Occupying Lesion (SOL), that need rapid and effective handling. In most country, this lesion could be cause by encephalitis toxoplasma and Primary Central Nervous System Lymphoma that related to Epstein Barr virus infection that was difficult to distinguished using CT scan or MRI. Gold standard to distinguished was brain biopsy, but this examination was invasive procedure that cause complication. Therefore, we need a reliable and rapid examination to distinguished it. This study aimed to get detection for rapid diagnosis of T.gondii and EBV infection. This study was an experimental laboratory. First step was optimation of dupleks real-time PCR include annealing temperature, primer andprobe consentration, elution volume and template volume. Minimal detection of DNA to measured minimal T.gondii and EBV that could be detected. Cross reaction to know technique spesivisity using bacterial and virus Staphylococcus aureus, Klebsiella pneumonia, Pseudomonas aeruginosa, Mycobacterium tuberculosis H37Rv, Candida spp, Cytomegalo virus, Herpes zoster virus, and Varicella zoster virus. Dupleks real-time PCR has been optimally applied to patient. The sample from blood and cerebrospinal fluid of HIV patients who admitted in the neurology department of RSCM then examined to duplex real-time PCR to detect T.gondii and EBV. The optimation of duplex real-time PCR, the annealing temperature for T.gondii and EBV were 58°C, consentration of primer forward and reverse for T.gondii and EBV were 0,2 µM, consentration of probe for T.gondii was 0,4µM and EBV was 0,2µM.. Minimal DNA detection for T.gondii was 5,68 copy/ml and EBV was 1,31 copy /ml. This study was sensitive like the others. Spesivisity technique of real-time PCR, there was not cross reaction between another bacteria and virus that used as primer and probe for T.gondii and EBV. From the results of the duplex real-time PCR on blood samples, 16 % was positive T.gondii, 40% Epstein Barr virus, and 16% were positive Epstein Barr virus and T.gondii and from cerebrospinal fluid samples 20% was positive T.gondii, 28% was positive Epstein Barr virus and 4% were positive for Epstein Barr Virus and T.gondii.;Focal brain lesion is neurology complication in HIV that marked with Space Occupying Lesion (SOL), that need rapid and effective handling. In most country, this lesion could be cause by encephalitis toxoplasma and Primary Central Nervous System Lymphoma that related to Epstein Barr virus infection that was difficult to distinguished using CT scan or MRI. Gold standard to distinguished was brain biopsy, but this examination was invasive procedure that cause complication. Therefore, we need a reliable and rapid examination to distinguished it. This study aimed to get detection for rapid diagnosis of T.gondii and EBV infection. This study was an experimental laboratory. First step was optimation of dupleks real-time PCR include annealing temperature, primer andprobe consentration, elution volume and template volume. Minimal detection of DNA to measured minimal T.gondii and EBV that could be detected. Cross reaction to know technique spesivisity using bacterial and virus Staphylococcus aureus, Klebsiella pneumonia, Pseudomonas aeruginosa, Mycobacterium tuberculosis H37Rv, Candida spp, Cytomegalo virus, Herpes zoster virus, and Varicella zoster virus. Dupleks real-time PCR has been optimally applied to patient. The sample from blood and cerebrospinal fluid of HIV patients who admitted in the neurology department of RSCM then examined to duplex real-time PCR to detect T.gondii and EBV. The optimation of duplex real-time PCR, the annealing temperature for T.gondii and EBV were 58°C, consentration of primer forward and reverse for T.gondii and EBV were 0,2 µM, consentration of probe for T.gondii was 0,4µM and EBV was 0,2µM.. Minimal DNA detection for T.gondii was 5,68 copy/ml and EBV was 1,31 copy /ml. This study was sensitive like the others. Spesivisity technique of real-time PCR, there was not cross reaction between another bacteria and virus that used as primer and probe for T.gondii and EBV. From the results of the duplex real-time PCR on blood samples, 16 % was positive T.gondii, 40% Epstein Barr virus, and 16% were positive Epstein Barr virus and T.gondii and from cerebrospinal fluid samples 20% was positive T.gondii, 28% was positive Epstein Barr virus and 4% were positive for Epstein Barr Virus and T.gondii.;Focal brain lesion is neurology complication in HIV that marked with Space Occupying Lesion (SOL), that need rapid and effective handling. In most country, this lesion could be cause by encephalitis toxoplasma and Primary Central Nervous System Lymphoma that related to Epstein Barr virus infection that was difficult to distinguished using CT scan or MRI. Gold standard to distinguished was brain biopsy, but this examination was invasive procedure that cause complication. Therefore, we need a reliable and rapid examination to distinguished it. This study aimed to get detection for rapid diagnosis of T.gondii and EBV infection. This study was an experimental laboratory. First step was optimation of dupleks real-time PCR include annealing temperature, primer andprobe consentration, elution volume and template volume. Minimal detection of DNA to measured minimal T.gondii and EBV that could be detected. Cross reaction to know technique spesivisity using bacterial and virus Staphylococcus aureus, Klebsiella pneumonia, Pseudomonas aeruginosa, Mycobacterium tuberculosis H37Rv, Candida spp, Cytomegalo virus, Herpes zoster virus, and Varicella zoster virus. Dupleks real-time PCR has been optimally applied to patient. The sample from blood and cerebrospinal fluid of HIV patients who admitted in the neurology department of RSCM then examined to duplex real-time PCR to detect T.gondii and EBV. The optimation of duplex real-time PCR, the annealing temperature for T.gondii and EBV were 58°C, consentration of primer forward and reverse for T.gondii and EBV were 0,2 µM, consentration of probe for T.gondii was 0,4µM and EBV was 0,2µM.. Minimal DNA detection for T.gondii was 5,68 copy/ml and EBV was 1,31 copy /ml. This study was sensitive like the others. Spesivisity technique of real-time PCR, there was not cross reaction between another bacteria and virus that used as primer and probe for T.gondii and EBV. From the results of the duplex real-time PCR on blood samples, 16 % was positive T.gondii, 40% Epstein Barr virus, and 16% were positive Epstein Barr virus and T.gondii and from cerebrospinal fluid samples 20% was positive T.gondii, 28% was positive Epstein Barr virus and 4% were positive for Epstein Barr Virus and T.gondii."

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Enzim protease sangat potensial untuk digunakan di berbagai bidang industri. Salah satu bakteri yang dapat menghasilkan enzim protease yang potensial adalah Bacillus halodurans CM1. Bacillus halodurans CM1 merupakan bakteri alkalotermofilik yang dimiliki oleh BPPT dan terdeteksi dapat menghasilkan enzim protease alkalotermofilik. Penelitian ini bertujuan untuk melakukan subkloning gen protease dan konjugasi ke Bacillus halodurans CM1 dan Bacillus subtilis DB104 sebagai kontrol, serta menganalisis ekspresi produk gen yang dihasilkan. Gen protease berhasil diamplifikasi sebagai insert sebesar 1.417 pb dan berhasil tersisipi ke dalam vektor pBBRE194 yang berukuran 8.402 pb, dengan menghasilkan plasmid rekombinan sebesar 9.819 pb. Hasil konjugasi ke Bacillus subtilis DB104 diperoleh 1 klona positif yang terverifikasi plasmidnya dan menghasilkan zona bening. Sementara itu, konjugasi ke Bacillus halodurans CM1 diperoleh beberapa klona yang resisten terhadap antibiotik tetrasiklin dan menghasilkan zona bening, tetapi belum didapatkan klona positif yang berhasil diekstraksi plasmidnya. Enzim protease rekombinan yang dihasilkan oleh Bacillus subtilis DB104 rekombinan memiliki aktivitas lebih tinggi dibandingkan dengan Bacillus subtilis DB104. Hasil karakterisasi enzim protease rekombinan pada rentang suhu 30⁰C—60⁰ dan pH 5—9 menunjukkan aktivitas tertinggi pada suhu 50⁰C dan pH 9 yaitu sebesar 13,66 U/mL, sehingga termasuk dalam protease alkalotermofilik.

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Protease is a potential enzyme that applied in various industry fields. One of the bacteria that can produce a potential protease enzyme is Bacillus halodurans CM1. Bacillus halodurans CM1 is an alkalotermophilic bacteria that is collected by BPPT and is detected can produce alkalotermophilic protease enzyme. This study aim to subclone the protease gene and conjugation to Bacillus halodurans CM1 and Bacillus subtilis DB104 as control, and analyze the expression of product gene produced. The protease gene was successfully amplified as an insert of 1.417 bp and was successfully inserted into the pBBRE194 vector of 8.402 bp, by producing a recombinant plasmid of 9,819 bp. Conjugation to Bacillus subtilis DB104 obtained 1 positive clone verified by the plasmid and produced a clear zone. Conjugation to Bacillus halodurans CM1 obtained some clones that were resistant to tetracycline antibiotic and produced clear zone, but no positive clones with the plasmid were successfully extracted. The recombinant protease enzyme produced by Bacillus subtilis DB104 recombinant has higher activity compared to Bacillus subtilis DB104. The results of the recombinant protease enzyme characterization in the temperature range of 30⁰C—60⁰C and pH 5—9 show the highest activity at 50⁰C and pH 9 which is 13.66 U/mL, so it included to the alkalotermophilic protease group.

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