BIOINFORMATICS ANALYSIS FOR ISOLATING A GENE ENCODING SORTASE F FROM ROSSELLOMOREA AQUIMARIS MKSC 6.2
Sortases have a physiological role of expressing proteins in the cell wall of Gram-positive bacteria. Expressed proteins have various functions, especially in bacterial pathogenesis and virulence. There are various types of sortases (from A-F), each with unique characteristics and physiologica...
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id-itb.:813652024-06-19T14:29:17ZBIOINFORMATICS ANALYSIS FOR ISOLATING A GENE ENCODING SORTASE F FROM ROSSELLOMOREA AQUIMARIS MKSC 6.2 William Sugiarta, Nicholas Kimia Indonesia Final Project Bioinformatics analysis, Rossellomorea aquimaris, sortase F, PCR, degenerate primer INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/81365 Sortases have a physiological role of expressing proteins in the cell wall of Gram-positive bacteria. Expressed proteins have various functions, especially in bacterial pathogenesis and virulence. There are various types of sortases (from A-F), each with unique characteristics and physiological roles. Sortase A from Staphylococcus aureus, commonly regarded as the organism’s house-keeping protein, has been extensively studied and gave insight to the inner workings of sortase. The catalytic core of sortase comprises of a catalytic triad made from cysteine, histidine, and arginine, making sortase a cysteine protease. Sortase F is the least understood sortase, but it is thought to have similar mechanisms and functions to sortase A with differing independency towards Ca2+. Rossellomorea aquimaris, a Gram-positive bacterium, has both sortase D and sortase F, the former of which had been studied. The physiological role of sortase F is not well-understood. This research aims to give structural insight of sortase F from R. aquimaris MKSC 6.2 using bioinformatics analysis, and to develop a method of isolating and amplifying its gene (srtF). Our results show that R. aquimaris has two types of sortase F, named sortase F 5T_A and 5T_B. Both proteins have different signal peptides and sortase 5T_B has an additional N-terminal domain, which gave insight into their respective physiological roles. Further bioinformatics analyses are used to design a set of primers based on conserved sortase F catalytic domain. Gene amplification using this set of primers resulted in a 222 bp fragments, which are then ligated to pGEM-T Easy cloning factor. The fragments are then sequenced and identified. Electropherogram analysis does not show expected results. Degenerated primers based on conserved catalytic domains yielded no result, so we designed a new pair of primers based on the whole sequence of srtF 5T_B. text |
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Kimia William Sugiarta, Nicholas BIOINFORMATICS ANALYSIS FOR ISOLATING A GENE ENCODING SORTASE F FROM ROSSELLOMOREA AQUIMARIS MKSC 6.2 |
| description |
Sortases have a physiological role of expressing proteins in the cell wall of Gram-positive
bacteria. Expressed proteins have various functions, especially in bacterial pathogenesis and
virulence. There are various types of sortases (from A-F), each with unique characteristics and
physiological roles. Sortase A from Staphylococcus aureus, commonly regarded as the
organism’s house-keeping protein, has been extensively studied and gave insight to the inner
workings of sortase. The catalytic core of sortase comprises of a catalytic triad made from
cysteine, histidine, and arginine, making sortase a cysteine protease. Sortase F is the least
understood sortase, but it is thought to have similar mechanisms and functions to sortase A
with differing independency towards Ca2+. Rossellomorea aquimaris, a Gram-positive
bacterium, has both sortase D and sortase F, the former of which had been studied. The
physiological role of sortase F is not well-understood. This research aims to give structural
insight of sortase F from R. aquimaris MKSC 6.2 using bioinformatics analysis, and to develop
a method of isolating and amplifying its gene (srtF). Our results show that R. aquimaris has
two types of sortase F, named sortase F 5T_A and 5T_B. Both proteins have different signal
peptides and sortase 5T_B has an additional N-terminal domain, which gave insight into their
respective physiological roles. Further bioinformatics analyses are used to design a set of
primers based on conserved sortase F catalytic domain. Gene amplification using this set of
primers resulted in a 222 bp fragments, which are then ligated to pGEM-T Easy cloning factor.
The fragments are then sequenced and identified. Electropherogram analysis does not show
expected results. Degenerated primers based on conserved catalytic domains yielded no result,
so we designed a new pair of primers based on the whole sequence of srtF 5T_B. |
| format |
Final Project |
| author |
William Sugiarta, Nicholas |
| author_facet |
William Sugiarta, Nicholas |
| author_sort |
William Sugiarta, Nicholas |
| title |
BIOINFORMATICS ANALYSIS FOR ISOLATING A GENE ENCODING SORTASE F FROM ROSSELLOMOREA AQUIMARIS MKSC 6.2 |
| title_short |
BIOINFORMATICS ANALYSIS FOR ISOLATING A GENE ENCODING SORTASE F FROM ROSSELLOMOREA AQUIMARIS MKSC 6.2 |
| title_full |
BIOINFORMATICS ANALYSIS FOR ISOLATING A GENE ENCODING SORTASE F FROM ROSSELLOMOREA AQUIMARIS MKSC 6.2 |
| title_fullStr |
BIOINFORMATICS ANALYSIS FOR ISOLATING A GENE ENCODING SORTASE F FROM ROSSELLOMOREA AQUIMARIS MKSC 6.2 |
| title_full_unstemmed |
BIOINFORMATICS ANALYSIS FOR ISOLATING A GENE ENCODING SORTASE F FROM ROSSELLOMOREA AQUIMARIS MKSC 6.2 |
| title_sort |
bioinformatics analysis for isolating a gene encoding sortase f from rossellomorea aquimaris mksc 6.2 |
| url |
https://digilib.itb.ac.id/gdl/view/81365 |
| _version_ |
1822009457982308352 |