Team:Glendale CC AZ/Project/PreviousResearch
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During our research for desiccation-resistance factors, we came across with the 2010 Valencia iGEM project. They | During our research for desiccation-resistance factors, we came across with the 2010 Valencia iGEM project. They | ||
demonstrated that late embryogenesis abundant proteins (LEA) from soy beans provided protection against extreme temperatures, when expressed in E. coli. Since high temperatures might lead to desiccation, we decided to explore LEA proteins in more detail. Previous studies have reported that LEA protein enhances the tolerance to various environmental stresses in organisms (Liu, Zheng, Zhang, Wang, & Li, 2010). They were first discovered in cottonseed and other plants vegetative tissues that were exposed to cold temperatures, drought, and high salinity (Liu et al., 2010). LEA proteins are part of an extensive multi-gene family and are classified based on their sequences and expression patterns (Liu et al., 2010). Since Deinococcus was our organism of interest, we looked for studies that had reported homolog LEA proteins in this bacterium. At first, the idea of plant proteins in Deinococcus sounded unconceivable to us. However, our curiosity paid off as we discovered that Deinococcus radiodurans had homolog LEA proteins which are hypothesized to be acquired via horizontal gene transfer (Makarova et al., 2001). Three of these D. radiodurans proteins are DR0105, DR1372 and DR1172 which show similarity to well-characterized and widespread desiccation induced LEA proteins in plants (Makarova et al., 2001). | demonstrated that late embryogenesis abundant proteins (LEA) from soy beans provided protection against extreme temperatures, when expressed in E. coli. Since high temperatures might lead to desiccation, we decided to explore LEA proteins in more detail. Previous studies have reported that LEA protein enhances the tolerance to various environmental stresses in organisms (Liu, Zheng, Zhang, Wang, & Li, 2010). They were first discovered in cottonseed and other plants vegetative tissues that were exposed to cold temperatures, drought, and high salinity (Liu et al., 2010). LEA proteins are part of an extensive multi-gene family and are classified based on their sequences and expression patterns (Liu et al., 2010). Since Deinococcus was our organism of interest, we looked for studies that had reported homolog LEA proteins in this bacterium. At first, the idea of plant proteins in Deinococcus sounded unconceivable to us. However, our curiosity paid off as we discovered that Deinococcus radiodurans had homolog LEA proteins which are hypothesized to be acquired via horizontal gene transfer (Makarova et al., 2001). Three of these D. radiodurans proteins are DR0105, DR1372 and DR1172 which show similarity to well-characterized and widespread desiccation induced LEA proteins in plants (Makarova et al., 2001). | ||
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PprA- Sean | PprA- Sean | ||
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PprM- Teresa | PprM- Teresa | ||
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+ | ===References=== | ||
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+ | Liu, Y., Zheng, Y., Zhang, Y., Wang, W., & Li, R. (2010, May 1). Soybean PM2 protein (LEA3) confers the tolerance of Escherichia coli and stabilization of enzyme activity under diverse stresses. Current Microbiology, 60(5), 373-378. doi:10.1007/s00284-009-9552-2 | ||
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+ | MAKAROVA, K. S., ARAVIND, L., WOLF, Y. I., TATUSOV, R., MINTON, K. W., KOONIN, E. V., & DALY, M. J. (2001, March). | ||
+ | Genome of the extremely radiation-resistant bacterium Deinococcus radiodurans viewed from the perspective of comparative genomics. MICROBIOLOGY AND MOLECULAR BIOLOGY REVIEWS, 65(1), 44-79. doi:10.1128/MMBR.65.1.44–79.2001 |
Revision as of 23:00, 27 August 2013
D. radiodurans - Esther
PprI- Andrew
PprI
For the team’s Igem project, we wanted to increase E. coli’s desiccation resistance to help it survive in a desert environment. To do this, we planned to insert different genes from the Deinococcus species into the E. coli to increase its resistance to dessication. One of the genes our Igem group wanted to investigate was PprI. PprI is the transcriptional regulator involved in the expression of many of the DNA damage response proteins in Deinococcus radiodurans. In 2012, the Osaka team transformed E. coli with PprI to determine its effects on hydrogen peroxide resistance. Because of this, a PprI part from this team was in the Igem parts database. This allowed us to order their PprI part from the Igem registry and perform our experiments with it.
LEA
During our research for desiccation-resistance factors, we came across with the 2010 Valencia iGEM project. They demonstrated that late embryogenesis abundant proteins (LEA) from soy beans provided protection against extreme temperatures, when expressed in E. coli. Since high temperatures might lead to desiccation, we decided to explore LEA proteins in more detail. Previous studies have reported that LEA protein enhances the tolerance to various environmental stresses in organisms (Liu, Zheng, Zhang, Wang, & Li, 2010). They were first discovered in cottonseed and other plants vegetative tissues that were exposed to cold temperatures, drought, and high salinity (Liu et al., 2010). LEA proteins are part of an extensive multi-gene family and are classified based on their sequences and expression patterns (Liu et al., 2010). Since Deinococcus was our organism of interest, we looked for studies that had reported homolog LEA proteins in this bacterium. At first, the idea of plant proteins in Deinococcus sounded unconceivable to us. However, our curiosity paid off as we discovered that Deinococcus radiodurans had homolog LEA proteins which are hypothesized to be acquired via horizontal gene transfer (Makarova et al., 2001). Three of these D. radiodurans proteins are DR0105, DR1372 and DR1172 which show similarity to well-characterized and widespread desiccation induced LEA proteins in plants (Makarova et al., 2001).
PprA- Sean
RecA- Teresa
PprM- Teresa
References
Liu, Y., Zheng, Y., Zhang, Y., Wang, W., & Li, R. (2010, May 1). Soybean PM2 protein (LEA3) confers the tolerance of Escherichia coli and stabilization of enzyme activity under diverse stresses. Current Microbiology, 60(5), 373-378. doi:10.1007/s00284-009-9552-2
MAKAROVA, K. S., ARAVIND, L., WOLF, Y. I., TATUSOV, R., MINTON, K. W., KOONIN, E. V., & DALY, M. J. (2001, March). Genome of the extremely radiation-resistant bacterium Deinococcus radiodurans viewed from the perspective of comparative genomics. MICROBIOLOGY AND MOLECULAR BIOLOGY REVIEWS, 65(1), 44-79. doi:10.1128/MMBR.65.1.44–79.2001