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303. Additional file 28: of Comparative genomics reveals high biological diversity and specific adaptations in the industrially and medically important fungal genus Aspergillus

Author

Vries, Ronald De, Riley, Robert, Wiebenga, Ad, Aguilar-Osorio, Guillermo, Sotiris Amillis, Cristiane Uchima, Anderluh, Gregor, Asadollahi, Mojtaba, Askin, Marion, Barry, Kerrie, Battaglia, Evy, Bayram, Özgür, Benocci, Tiziano, Braus-Stromeyer, Susanna, Caldana, Camila, Cánovas, David, Cerqueira, Gustavo, Fusheng Chen, Wanping Chen, Choi, Cindy, Clum, Alicia, Santos, Renato Dos, Damásio, André, Diallinas, George, Emri, Tamás, Fekete, Erzsébet, Flipphi, Michel, Freyberg, Susanne, Gallo, Antonia, Gournas, Christos, Habgood, Rob, Hainaut, Matthieu, Harispe, María, Henrissat, Bernard, Hildén, Kristiina, Hope, Ryan, Hossain, Abeer, Karabika, Eugenia, Karaffa, Levente, Karányi, Zsolt, Kraševec, Nada, Kuo, Alan, Kusch, Harald, LaButti, Kurt, Lagendijk, Ellen, Lapidus, Alla, Levasseur, Anthony, Lindquist, Erika, Lipzen, Anna, Logrieco, Antonio, MacCabe, Andrew, Mäkelä, Miia, Malavazi, Iran, Melin, Petter, Meyer, Vera, Mielnichuk, Natalia, Miskei, Márton, Molnár, Ákos, Mulé, Giuseppina, Chew Ngan, Orejas, Margarita, Orosz, Erzsébet, Ouedraogo, Jean, Overkamp, Karin, Park, Hee-Soo, Perrone, Giancarlo, Francois Piumi, Punt, Peter, Ram, Arthur, Ramón, Ana, Rauscher, Stefan, Record, Eric, Riaño-Pachón, Diego, Robert, Vincent, Röhrig, Julian, Ruller, Roberto, Salamov, Asaf, Nadhira Salih, Samson, Rob, Sándor, Erzsébet, Sanguinetti, Manuel, Schütze, Tabea, Sepčić, Kristina, Shelest, Ekaterina, Sherlock, Gavin, Sophianopoulou, Vicky, Squina, Fabio, Sun, Hui, Susca, Antonia, Todd, Richard, Tsang, Adrian, Unkles, Shiela, Wiele, Nathalie Van De, Rossen-Uffink, Diana Van, Oliveira, Juliana, Vesth, Tammi, Visser, Jaap, Jae-Hyuk Yu, Miaomiao Zhou, Andersen, Mikael, Archer, David, Baker, Scott, Benoit, Isabelle, Brakhage, Axel, Braus, Gerhard, Fischer, Reinhard, Frisvad, Jens, Goldman, Gustavo, Houbraken, Jos, Berl Oakley, Pócsi, István, Scazzocchio, Claudio, Seiboth, Bernhard, VanKuyk, Patricia, Wortman, Jennifer, Dyer, Paul, and Grigoriev, Igor

Subjects
body regions, nervous system, fungi, humanities, 3. Good health
Abstract

Number of flavohemoglobins and protein IDs found in the genome sequences of the Aspergillus species. (PDF 79 kb)

304. Additional file 33: of Comparative genomics reveals high biological diversity and specific adaptations in the industrially and medically important fungal genus Aspergillus

Author

Vries, Ronald De, Riley, Robert, Wiebenga, Ad, Aguilar-Osorio, Guillermo, Sotiris Amillis, Cristiane Uchima, Anderluh, Gregor, Asadollahi, Mojtaba, Askin, Marion, Barry, Kerrie, Battaglia, Evy, Bayram, Özgür, Benocci, Tiziano, Braus-Stromeyer, Susanna, Caldana, Camila, Cánovas, David, Cerqueira, Gustavo, Fusheng Chen, Wanping Chen, Choi, Cindy, Clum, Alicia, Santos, Renato Dos, Damásio, André, Diallinas, George, Emri, Tamás, Fekete, Erzsébet, Flipphi, Michel, Freyberg, Susanne, Gallo, Antonia, Gournas, Christos, Habgood, Rob, Hainaut, Matthieu, Harispe, María, Henrissat, Bernard, Hildén, Kristiina, Hope, Ryan, Hossain, Abeer, Karabika, Eugenia, Karaffa, Levente, Karányi, Zsolt, Kraševec, Nada, Kuo, Alan, Kusch, Harald, LaButti, Kurt, Lagendijk, Ellen, Lapidus, Alla, Levasseur, Anthony, Lindquist, Erika, Lipzen, Anna, Logrieco, Antonio, MacCabe, Andrew, Mäkelä, Miia, Malavazi, Iran, Melin, Petter, Meyer, Vera, Mielnichuk, Natalia, Miskei, Márton, Molnár, Ákos, Mulé, Giuseppina, Chew Ngan, Orejas, Margarita, Orosz, Erzsébet, Ouedraogo, Jean, Overkamp, Karin, Park, Hee-Soo, Perrone, Giancarlo, Francois Piumi, Punt, Peter, Ram, Arthur, Ramón, Ana, Rauscher, Stefan, Record, Eric, Riaño-Pachón, Diego, Robert, Vincent, Röhrig, Julian, Ruller, Roberto, Salamov, Asaf, Nadhira Salih, Samson, Rob, Sándor, Erzsébet, Sanguinetti, Manuel, Schütze, Tabea, Sepčić, Kristina, Shelest, Ekaterina, Sherlock, Gavin, Sophianopoulou, Vicky, Squina, Fabio, Sun, Hui, Susca, Antonia, Todd, Richard, Tsang, Adrian, Unkles, Shiela, Wiele, Nathalie Van De, Rossen-Uffink, Diana Van, Oliveira, Juliana, Vesth, Tammi, Visser, Jaap, Jae-Hyuk Yu, Miaomiao Zhou, Andersen, Mikael, Archer, David, Baker, Scott, Benoit, Isabelle, Brakhage, Axel, Braus, Gerhard, Fischer, Reinhard, Frisvad, Jens, Goldman, Gustavo, Houbraken, Jos, Berl Oakley, Pócsi, István, Scazzocchio, Claudio, Seiboth, Bernhard, VanKuyk, Patricia, Wortman, Jennifer, Dyer, Paul, and Grigoriev, Igor

Subjects
body regions, nervous system, fungi, 3. Good health
Abstract

Kinases presented in at least one yeast species and with no orthologous genes in other eurotiomycetes. (PDF 117 kb)

305. Additional file 28: of Comparative genomics reveals high biological diversity and specific adaptations in the industrially and medically important fungal genus Aspergillus

Author

Vries, Ronald De, Riley, Robert, Wiebenga, Ad, Aguilar-Osorio, Guillermo, Sotiris Amillis, Cristiane Uchima, Anderluh, Gregor, Asadollahi, Mojtaba, Askin, Marion, Barry, Kerrie, Battaglia, Evy, Bayram, Özgür, Benocci, Tiziano, Braus-Stromeyer, Susanna, Caldana, Camila, Cánovas, David, Cerqueira, Gustavo, Fusheng Chen, Wanping Chen, Choi, Cindy, Clum, Alicia, Santos, Renato Dos, Damásio, André, Diallinas, George, Emri, Tamás, Fekete, Erzsébet, Flipphi, Michel, Freyberg, Susanne, Gallo, Antonia, Gournas, Christos, Habgood, Rob, Hainaut, Matthieu, Harispe, María, Henrissat, Bernard, Hildén, Kristiina, Hope, Ryan, Hossain, Abeer, Karabika, Eugenia, Karaffa, Levente, Karányi, Zsolt, Kraševec, Nada, Kuo, Alan, Kusch, Harald, LaButti, Kurt, Lagendijk, Ellen, Lapidus, Alla, Levasseur, Anthony, Lindquist, Erika, Lipzen, Anna, Logrieco, Antonio, MacCabe, Andrew, Mäkelä, Miia, Malavazi, Iran, Melin, Petter, Meyer, Vera, Mielnichuk, Natalia, Miskei, Márton, Molnár, Ákos, Mulé, Giuseppina, Chew Ngan, Orejas, Margarita, Orosz, Erzsébet, Ouedraogo, Jean, Overkamp, Karin, Park, Hee-Soo, Perrone, Giancarlo, Francois Piumi, Punt, Peter, Ram, Arthur, Ramón, Ana, Rauscher, Stefan, Record, Eric, Riaño-Pachón, Diego, Robert, Vincent, Röhrig, Julian, Ruller, Roberto, Salamov, Asaf, Nadhira Salih, Samson, Rob, Sándor, Erzsébet, Sanguinetti, Manuel, Schütze, Tabea, Sepčić, Kristina, Shelest, Ekaterina, Sherlock, Gavin, Sophianopoulou, Vicky, Squina, Fabio, Sun, Hui, Susca, Antonia, Todd, Richard, Tsang, Adrian, Unkles, Shiela, Wiele, Nathalie Van De, Rossen-Uffink, Diana Van, Oliveira, Juliana, Vesth, Tammi, Visser, Jaap, Jae-Hyuk Yu, Miaomiao Zhou, Andersen, Mikael, Archer, David, Baker, Scott, Benoit, Isabelle, Brakhage, Axel, Braus, Gerhard, Fischer, Reinhard, Frisvad, Jens, Goldman, Gustavo, Houbraken, Jos, Berl Oakley, Pócsi, István, Scazzocchio, Claudio, Seiboth, Bernhard, VanKuyk, Patricia, Wortman, Jennifer, Dyer, Paul, and Grigoriev, Igor

Subjects
body regions, nervous system, fungi, humanities, 3. Good health
Abstract

Number of flavohemoglobins and protein IDs found in the genome sequences of the Aspergillus species. (PDF 79 kb)

306. Additional file 39: of Comparative genomics reveals high biological diversity and specific adaptations in the industrially and medically important fungal genus Aspergillus

Author

Vries, Ronald De, Riley, Robert, Wiebenga, Ad, Aguilar-Osorio, Guillermo, Sotiris Amillis, Cristiane Uchima, Anderluh, Gregor, Asadollahi, Mojtaba, Askin, Marion, Barry, Kerrie, Battaglia, Evy, Bayram, Özgür, Benocci, Tiziano, Braus-Stromeyer, Susanna, Caldana, Camila, Cánovas, David, Cerqueira, Gustavo, Fusheng Chen, Wanping Chen, Choi, Cindy, Clum, Alicia, Santos, Renato Dos, Damásio, André, Diallinas, George, Emri, Tamás, Fekete, Erzsébet, Flipphi, Michel, Freyberg, Susanne, Gallo, Antonia, Gournas, Christos, Habgood, Rob, Hainaut, Matthieu, Harispe, María, Henrissat, Bernard, Hildén, Kristiina, Hope, Ryan, Hossain, Abeer, Karabika, Eugenia, Karaffa, Levente, Karányi, Zsolt, Kraševec, Nada, Kuo, Alan, Kusch, Harald, LaButti, Kurt, Lagendijk, Ellen, Lapidus, Alla, Levasseur, Anthony, Lindquist, Erika, Lipzen, Anna, Logrieco, Antonio, MacCabe, Andrew, Mäkelä, Miia, Malavazi, Iran, Melin, Petter, Meyer, Vera, Mielnichuk, Natalia, Miskei, Márton, Molnár, Ákos, Mulé, Giuseppina, Chew Ngan, Orejas, Margarita, Orosz, Erzsébet, Ouedraogo, Jean, Overkamp, Karin, Park, Hee-Soo, Perrone, Giancarlo, Francois Piumi, Punt, Peter, Ram, Arthur, Ramón, Ana, Rauscher, Stefan, Record, Eric, Riaño-Pachón, Diego, Robert, Vincent, Röhrig, Julian, Ruller, Roberto, Salamov, Asaf, Nadhira Salih, Samson, Rob, Sándor, Erzsébet, Sanguinetti, Manuel, Schütze, Tabea, Sepčić, Kristina, Shelest, Ekaterina, Sherlock, Gavin, Sophianopoulou, Vicky, Squina, Fabio, Sun, Hui, Susca, Antonia, Todd, Richard, Tsang, Adrian, Unkles, Shiela, Wiele, Nathalie Van De, Rossen-Uffink, Diana Van, Oliveira, Juliana, Vesth, Tammi, Visser, Jaap, Jae-Hyuk Yu, Miaomiao Zhou, Andersen, Mikael, Archer, David, Baker, Scott, Benoit, Isabelle, Brakhage, Axel, Braus, Gerhard, Fischer, Reinhard, Frisvad, Jens, Goldman, Gustavo, Houbraken, Jos, Berl Oakley, Pócsi, István, Scazzocchio, Claudio, Seiboth, Bernhard, VanKuyk, Patricia, Wortman, Jennifer, Dyer, Paul, and Grigoriev, Igor

Subjects
3. Good health
Abstract

Phylogeny of the Methallophos domain in A. nidulans. (PDF 96 kb)

307. Additional file 24: of Comparative genomics reveals high biological diversity and specific adaptations in the industrially and medically important fungal genus Aspergillus

Author

Vries, Ronald De, Riley, Robert, Wiebenga, Ad, Aguilar-Osorio, Guillermo, Sotiris Amillis, Cristiane Uchima, Anderluh, Gregor, Asadollahi, Mojtaba, Askin, Marion, Barry, Kerrie, Battaglia, Evy, Bayram, Özgür, Benocci, Tiziano, Braus-Stromeyer, Susanna, Caldana, Camila, Cánovas, David, Cerqueira, Gustavo, Fusheng Chen, Wanping Chen, Choi, Cindy, Clum, Alicia, Santos, Renato Dos, Damásio, André, Diallinas, George, Emri, Tamás, Fekete, Erzsébet, Flipphi, Michel, Freyberg, Susanne, Gallo, Antonia, Gournas, Christos, Habgood, Rob, Hainaut, Matthieu, Harispe, María, Henrissat, Bernard, Hildén, Kristiina, Hope, Ryan, Hossain, Abeer, Karabika, Eugenia, Karaffa, Levente, Karányi, Zsolt, Kraševec, Nada, Kuo, Alan, Kusch, Harald, LaButti, Kurt, Lagendijk, Ellen, Lapidus, Alla, Levasseur, Anthony, Lindquist, Erika, Lipzen, Anna, Logrieco, Antonio, MacCabe, Andrew, Mäkelä, Miia, Malavazi, Iran, Melin, Petter, Meyer, Vera, Mielnichuk, Natalia, Miskei, Márton, Molnár, Ákos, Mulé, Giuseppina, Chew Ngan, Orejas, Margarita, Orosz, Erzsébet, Ouedraogo, Jean, Overkamp, Karin, Park, Hee-Soo, Perrone, Giancarlo, Francois Piumi, Punt, Peter, Ram, Arthur, Ramón, Ana, Rauscher, Stefan, Record, Eric, Riaño-Pachón, Diego, Robert, Vincent, Röhrig, Julian, Ruller, Roberto, Salamov, Asaf, Nadhira Salih, Samson, Rob, Sándor, Erzsébet, Sanguinetti, Manuel, Schütze, Tabea, Sepčić, Kristina, Shelest, Ekaterina, Sherlock, Gavin, Sophianopoulou, Vicky, Squina, Fabio, Sun, Hui, Susca, Antonia, Todd, Richard, Tsang, Adrian, Unkles, Shiela, Wiele, Nathalie Van De, Rossen-Uffink, Diana Van, Oliveira, Juliana, Vesth, Tammi, Visser, Jaap, Jae-Hyuk Yu, Miaomiao Zhou, Andersen, Mikael, Archer, David, Baker, Scott, Benoit, Isabelle, Brakhage, Axel, Braus, Gerhard, Fischer, Reinhard, Frisvad, Jens, Goldman, Gustavo, Houbraken, Jos, Berl Oakley, Pócsi, István, Scazzocchio, Claudio, Seiboth, Bernhard, VanKuyk, Patricia, Wortman, Jennifer, Dyer, Paul, and Grigoriev, Igor

Subjects
body regions, nervous system, fungi, 3. Good health
Abstract

Phylogenetic relationships of UreA homologs. (PDF 108 kb)

308. Additional file 33: of Comparative genomics reveals high biological diversity and specific adaptations in the industrially and medically important fungal genus Aspergillus

Author

Vries, Ronald De, Riley, Robert, Wiebenga, Ad, Aguilar-Osorio, Guillermo, Sotiris Amillis, Cristiane Uchima, Anderluh, Gregor, Asadollahi, Mojtaba, Askin, Marion, Barry, Kerrie, Battaglia, Evy, Bayram, Özgür, Benocci, Tiziano, Braus-Stromeyer, Susanna, Caldana, Camila, Cánovas, David, Cerqueira, Gustavo, Fusheng Chen, Wanping Chen, Choi, Cindy, Clum, Alicia, Santos, Renato Dos, Damásio, André, Diallinas, George, Emri, Tamás, Fekete, Erzsébet, Flipphi, Michel, Freyberg, Susanne, Gallo, Antonia, Gournas, Christos, Habgood, Rob, Hainaut, Matthieu, Harispe, María, Henrissat, Bernard, Hildén, Kristiina, Hope, Ryan, Hossain, Abeer, Karabika, Eugenia, Karaffa, Levente, Karányi, Zsolt, Kraševec, Nada, Kuo, Alan, Kusch, Harald, LaButti, Kurt, Lagendijk, Ellen, Lapidus, Alla, Levasseur, Anthony, Lindquist, Erika, Lipzen, Anna, Logrieco, Antonio, MacCabe, Andrew, Mäkelä, Miia, Malavazi, Iran, Melin, Petter, Meyer, Vera, Mielnichuk, Natalia, Miskei, Márton, Molnár, Ákos, Mulé, Giuseppina, Chew Ngan, Orejas, Margarita, Orosz, Erzsébet, Ouedraogo, Jean, Overkamp, Karin, Park, Hee-Soo, Perrone, Giancarlo, Francois Piumi, Punt, Peter, Ram, Arthur, Ramón, Ana, Rauscher, Stefan, Record, Eric, Riaño-Pachón, Diego, Robert, Vincent, Röhrig, Julian, Ruller, Roberto, Salamov, Asaf, Nadhira Salih, Samson, Rob, Sándor, Erzsébet, Sanguinetti, Manuel, Schütze, Tabea, Sepčić, Kristina, Shelest, Ekaterina, Sherlock, Gavin, Sophianopoulou, Vicky, Squina, Fabio, Sun, Hui, Susca, Antonia, Todd, Richard, Tsang, Adrian, Unkles, Shiela, Wiele, Nathalie Van De, Rossen-Uffink, Diana Van, Oliveira, Juliana, Vesth, Tammi, Visser, Jaap, Jae-Hyuk Yu, Miaomiao Zhou, Andersen, Mikael, Archer, David, Baker, Scott, Benoit, Isabelle, Brakhage, Axel, Braus, Gerhard, Fischer, Reinhard, Frisvad, Jens, Goldman, Gustavo, Houbraken, Jos, Berl Oakley, Pócsi, István, Scazzocchio, Claudio, Seiboth, Bernhard, VanKuyk, Patricia, Wortman, Jennifer, Dyer, Paul, and Grigoriev, Igor

Subjects
body regions, nervous system, fungi, 3. Good health
Abstract

Kinases presented in at least one yeast species and with no orthologous genes in other eurotiomycetes. (PDF 117 kb)

309. Comparative genomics reveals high biological diversity and specific adaptations in the industrially and medically important fungal genus Aspergillus

Author

Vries, Ronald P. de, Riley, Robert, Wiebenga, Ad, Aguilar-Osorio, Guillermo, Amillis, Sotiris, Akemi Uchima, Cristiane, Anderluh, Gregor, Asaollahi, Mojtaba, Askin, Marion, Barry, Kerrie, Battaglia, Evy, Bayram, Ozgur, Benocci, Tiziano, Braus-Stromeyer, Susanna A., Caldana, Camila, Cánovas, David, Cerqueira, Gustavo C., Chen, Fusheng, Chen, Wanping, Choi, Cindy, Clum, Alicia, Corrêa dos Santos, Renato Augusto, Lima Damásio, André Ricardo de, Diallinas, George, Emri, Tamás, Fekete, Erzébet, Flipphi, Michel, Freyburg, Susanne, Gallo, Antonia, Gournas, Christos, Habgood, Rob, Hainaut, Matthieu, Harispe, Maria Laura, Henrissat, Bernard, Hildén, Kristiina S., Hope, Ryan, Hossain, Abeer, Karabika, Eugenia, Karaffa, Levente, Karanyi, Zsolt, Krasevec, Nada, Kuo, Alan, Kusch, Harald, LaButti, Kurt, Lagendijk, Ellen L., Lapidus, Alla, Levasseur, Anthony, Lindquist, Erika, Lipzen, Anna, Logrieco, Antonio F., MacCabe, Andrew, Mäkela, Miia R., Malavazi, Iran, Melin, Petter, Meyer, Vera, Mielnichuk, Natalia, Miskei, Márton, Molnár, Ákos P., Mulé, Giuseppina, Ngan, Chew Yee, Orejas, Margarita, Orosz, Erzsébet, Ouedraogo, Jean Paul, Overkamp, Karin M., Park, Hee-Soo, Perrone, Giancarlo, Piumi, Francois, Punt, Peter J., Ram, Arthur F.J., Ramon, Ana, Rauscher, Stefan, Record, Eric, Riaño-Pachón, Diego Mauricio, Robert, Vincent, Röhrig, Julian, Ruller, Roberto, Salamov, Asaf, Salih, Nadhira S., Samson, Rob A., Sándor, Erzsébet, Sanguinetti, Manuel, Schütze, Tabea, Sepčić, Kristina, Shelest, Ekaterina, Sherlock, Gavin, Sophianopoulou, Vicky, Squina, Fabio M., Sun, Hui, Susca, Antonia, Todd, Richard B., Tsang, Adrian, Unkles, Shiela E., Wiele, Nathalie van de, Rossen-Uffink, Diana van, Velasco de Castro Oliveira, Juliana, Vesth, Tammi C., Visser, Jaap, Yu, Jae-Hyuk, Zhou, Miaomiao, Andersen, Mikael R., Archer, David B., Baker, Scott E., Benoit, Isabelle, Brakhage, Axel A., Braus, Gerhard H., Fischer, Reinhard, Frisvad, Jens C., Goldman, Gustavo H., Houbraken, Jos, Oakley, Berl, Pócsi, István, Scazzocchio, Claudio, Seiboth, Bernhard, vanKuyk, Patricia A., Wortman, Jennifer, Dyer, Paul S., Grigoriev, Igor V., Vries, Ronald P. de, Riley, Robert, Wiebenga, Ad, Aguilar-Osorio, Guillermo, Amillis, Sotiris, Akemi Uchima, Cristiane, Anderluh, Gregor, Asaollahi, Mojtaba, Askin, Marion, Barry, Kerrie, Battaglia, Evy, Bayram, Ozgur, Benocci, Tiziano, Braus-Stromeyer, Susanna A., Caldana, Camila, Cánovas, David, Cerqueira, Gustavo C., Chen, Fusheng, Chen, Wanping, Choi, Cindy, Clum, Alicia, Corrêa dos Santos, Renato Augusto, Lima Damásio, André Ricardo de, Diallinas, George, Emri, Tamás, Fekete, Erzébet, Flipphi, Michel, Freyburg, Susanne, Gallo, Antonia, Gournas, Christos, Habgood, Rob, Hainaut, Matthieu, Harispe, Maria Laura, Henrissat, Bernard, Hildén, Kristiina S., Hope, Ryan, Hossain, Abeer, Karabika, Eugenia, Karaffa, Levente, Karanyi, Zsolt, Krasevec, Nada, Kuo, Alan, Kusch, Harald, LaButti, Kurt, Lagendijk, Ellen L., Lapidus, Alla, Levasseur, Anthony, Lindquist, Erika, Lipzen, Anna, Logrieco, Antonio F., MacCabe, Andrew, Mäkela, Miia R., Malavazi, Iran, Melin, Petter, Meyer, Vera, Mielnichuk, Natalia, Miskei, Márton, Molnár, Ákos P., Mulé, Giuseppina, Ngan, Chew Yee, Orejas, Margarita, Orosz, Erzsébet, Ouedraogo, Jean Paul, Overkamp, Karin M., Park, Hee-Soo, Perrone, Giancarlo, Piumi, Francois, Punt, Peter J., Ram, Arthur F.J., Ramon, Ana, Rauscher, Stefan, Record, Eric, Riaño-Pachón, Diego Mauricio, Robert, Vincent, Röhrig, Julian, Ruller, Roberto, Salamov, Asaf, Salih, Nadhira S., Samson, Rob A., Sándor, Erzsébet, Sanguinetti, Manuel, Schütze, Tabea, Sepčić, Kristina, Shelest, Ekaterina, Sherlock, Gavin, Sophianopoulou, Vicky, Squina, Fabio M., Sun, Hui, Susca, Antonia, Todd, Richard B., Tsang, Adrian, Unkles, Shiela E., Wiele, Nathalie van de, Rossen-Uffink, Diana van, Velasco de Castro Oliveira, Juliana, Vesth, Tammi C., Visser, Jaap, Yu, Jae-Hyuk, Zhou, Miaomiao, Andersen, Mikael R., Archer, David B., Baker, Scott E., Benoit, Isabelle, Brakhage, Axel A., Braus, Gerhard H., Fischer, Reinhard, Frisvad, Jens C., Goldman, Gustavo H., Houbraken, Jos, Oakley, Berl, Pócsi, István, Scazzocchio, Claudio, Seiboth, Bernhard, vanKuyk, Patricia A., Wortman, Jennifer, Dyer, Paul S., and Grigoriev, Igor V.

Abstract

Background: The fungal genus Aspergillus is of critical importance to humankind. Species include those with industrial applications, important pathogens of humans, animals and crops, a source of potent carcinogenic contaminants of food, and an important genetic model. The genome sequences of eight aspergilli have already been explored to investigate aspects of fungal biology, raising questions about evolution and specialization within this genus. Results: We have generated genome sequences for ten novel, highly diverse Aspergillus species and compared these in detail to sister and more distant genera. Comparative studies of key aspects of fungal biology, including primary and secondary metabolism, stress response, biomass degradation, and signal transduction, revealed both conservation and diversity among the species. Observed genomic differences were validated with experimental studies. This revealed several highlights, such as the potential for sex in asexual species, organic acid production genes being a key feature of black aspergilli, alternative approaches for degrading plant biomass, and indications for the genetic basis of stress response. A genome-wide phylogenetic analysis demonstrated in detail the relationship of the newly genome sequenced species with other aspergilli. Conclusions: Many aspects of biological differences between fungal species cannot be explained by current knowledge obtained from genome sequences. The comparative genomics and experimental study, presented here, allows for the first time a genus-wide view of the biological diversity of the aspergilli and in many, but not all, cases linked genome differences to phenotype. Insights gained could be exploited for biotechnological and medical applications of fungi.

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310. Comparative genomics reveals high biological diversity and specific adaptations in the industrially and medically important fungal genus Aspergillus

Author

Vries, Ronald P. de, Riley, Robert, Wiebenga, Ad, Aguilar-Osorio, Guillermo, Amillis, Sotiris, Akemi Uchima, Cristiane, Anderluh, Gregor, Asaollahi, Mojtaba, Askin, Marion, Barry, Kerrie, Battaglia, Evy, Bayram, Ozgur, Benocci, Tiziano, Braus-Stromeyer, Susanna A., Caldana, Camila, Cánovas, David, Cerqueira, Gustavo C., Chen, Fusheng, Chen, Wanping, Choi, Cindy, Clum, Alicia, Corrêa dos Santos, Renato Augusto, Lima Damásio, André Ricardo de, Diallinas, George, Emri, Tamás, Fekete, Erzébet, Flipphi, Michel, Freyburg, Susanne, Gallo, Antonia, Gournas, Christos, Habgood, Rob, Hainaut, Matthieu, Harispe, Maria Laura, Henrissat, Bernard, Hildén, Kristiina S., Hope, Ryan, Hossain, Abeer, Karabika, Eugenia, Karaffa, Levente, Karanyi, Zsolt, Krasevec, Nada, Kuo, Alan, Kusch, Harald, LaButti, Kurt, Lagendijk, Ellen L., Lapidus, Alla, Levasseur, Anthony, Lindquist, Erika, Lipzen, Anna, Logrieco, Antonio F., MacCabe, Andrew, Mäkela, Miia R., Malavazi, Iran, Melin, Petter, Meyer, Vera, Mielnichuk, Natalia, Miskei, Márton, Molnár, Ákos P., Mulé, Giuseppina, Ngan, Chew Yee, Orejas, Margarita, Orosz, Erzsébet, Ouedraogo, Jean Paul, Overkamp, Karin M., Park, Hee-Soo, Perrone, Giancarlo, Piumi, Francois, Punt, Peter J., Ram, Arthur F.J., Ramon, Ana, Rauscher, Stefan, Record, Eric, Riaño-Pachón, Diego Mauricio, Robert, Vincent, Röhrig, Julian, Ruller, Roberto, Salamov, Asaf, Salih, Nadhira S., Samson, Rob A., Sándor, Erzsébet, Sanguinetti, Manuel, Schütze, Tabea, Sepčić, Kristina, Shelest, Ekaterina, Sherlock, Gavin, Sophianopoulou, Vicky, Squina, Fabio M., Sun, Hui, Susca, Antonia, Todd, Richard B., Tsang, Adrian, Unkles, Shiela E., Wiele, Nathalie van de, Rossen-Uffink, Diana van, Velasco de Castro Oliveira, Juliana, Vesth, Tammi C., Visser, Jaap, Yu, Jae-Hyuk, Zhou, Miaomiao, Andersen, Mikael R., Archer, David B., Baker, Scott E., Benoit, Isabelle, Brakhage, Axel A., Braus, Gerhard H., Fischer, Reinhard, Frisvad, Jens C., Goldman, Gustavo H., Houbraken, Jos, Oakley, Berl, Pócsi, István, Scazzocchio, Claudio, Seiboth, Bernhard, vanKuyk, Patricia A., Wortman, Jennifer, Dyer, Paul S., Grigoriev, Igor V., Vries, Ronald P. de, Riley, Robert, Wiebenga, Ad, Aguilar-Osorio, Guillermo, Amillis, Sotiris, Akemi Uchima, Cristiane, Anderluh, Gregor, Asaollahi, Mojtaba, Askin, Marion, Barry, Kerrie, Battaglia, Evy, Bayram, Ozgur, Benocci, Tiziano, Braus-Stromeyer, Susanna A., Caldana, Camila, Cánovas, David, Cerqueira, Gustavo C., Chen, Fusheng, Chen, Wanping, Choi, Cindy, Clum, Alicia, Corrêa dos Santos, Renato Augusto, Lima Damásio, André Ricardo de, Diallinas, George, Emri, Tamás, Fekete, Erzébet, Flipphi, Michel, Freyburg, Susanne, Gallo, Antonia, Gournas, Christos, Habgood, Rob, Hainaut, Matthieu, Harispe, Maria Laura, Henrissat, Bernard, Hildén, Kristiina S., Hope, Ryan, Hossain, Abeer, Karabika, Eugenia, Karaffa, Levente, Karanyi, Zsolt, Krasevec, Nada, Kuo, Alan, Kusch, Harald, LaButti, Kurt, Lagendijk, Ellen L., Lapidus, Alla, Levasseur, Anthony, Lindquist, Erika, Lipzen, Anna, Logrieco, Antonio F., MacCabe, Andrew, Mäkela, Miia R., Malavazi, Iran, Melin, Petter, Meyer, Vera, Mielnichuk, Natalia, Miskei, Márton, Molnár, Ákos P., Mulé, Giuseppina, Ngan, Chew Yee, Orejas, Margarita, Orosz, Erzsébet, Ouedraogo, Jean Paul, Overkamp, Karin M., Park, Hee-Soo, Perrone, Giancarlo, Piumi, Francois, Punt, Peter J., Ram, Arthur F.J., Ramon, Ana, Rauscher, Stefan, Record, Eric, Riaño-Pachón, Diego Mauricio, Robert, Vincent, Röhrig, Julian, Ruller, Roberto, Salamov, Asaf, Salih, Nadhira S., Samson, Rob A., Sándor, Erzsébet, Sanguinetti, Manuel, Schütze, Tabea, Sepčić, Kristina, Shelest, Ekaterina, Sherlock, Gavin, Sophianopoulou, Vicky, Squina, Fabio M., Sun, Hui, Susca, Antonia, Todd, Richard B., Tsang, Adrian, Unkles, Shiela E., Wiele, Nathalie van de, Rossen-Uffink, Diana van, Velasco de Castro Oliveira, Juliana, Vesth, Tammi C., Visser, Jaap, Yu, Jae-Hyuk, Zhou, Miaomiao, Andersen, Mikael R., Archer, David B., Baker, Scott E., Benoit, Isabelle, Brakhage, Axel A., Braus, Gerhard H., Fischer, Reinhard, Frisvad, Jens C., Goldman, Gustavo H., Houbraken, Jos, Oakley, Berl, Pócsi, István, Scazzocchio, Claudio, Seiboth, Bernhard, vanKuyk, Patricia A., Wortman, Jennifer, Dyer, Paul S., and Grigoriev, Igor V.

Abstract

Background: The fungal genus Aspergillus is of critical importance to humankind. Species include those with industrial applications, important pathogens of humans, animals and crops, a source of potent carcinogenic contaminants of food, and an important genetic model. The genome sequences of eight aspergilli have already been explored to investigate aspects of fungal biology, raising questions about evolution and specialization within this genus. Results: We have generated genome sequences for ten novel, highly diverse Aspergillus species and compared these in detail to sister and more distant genera. Comparative studies of key aspects of fungal biology, including primary and secondary metabolism, stress response, biomass degradation, and signal transduction, revealed both conservation and diversity among the species. Observed genomic differences were validated with experimental studies. This revealed several highlights, such as the potential for sex in asexual species, organic acid production genes being a key feature of black aspergilli, alternative approaches for degrading plant biomass, and indications for the genetic basis of stress response. A genome-wide phylogenetic analysis demonstrated in detail the relationship of the newly genome sequenced species with other aspergilli. Conclusions: Many aspects of biological differences between fungal species cannot be explained by current knowledge obtained from genome sequences. The comparative genomics and experimental study, presented here, allows for the first time a genus-wide view of the biological diversity of the aspergilli and in many, but not all, cases linked genome differences to phenotype. Insights gained could be exploited for biotechnological and medical applications of fungi.

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311. Comparative genomics reveals high biological diversity and specific adaptations in the industrially and medically important fungal genus Aspergillus

Author

Vries, Ronald P. de, Riley, Robert, Wiebenga, Ad, Aguilar-Osorio, Guillermo, Amillis, Sotiris, Akemi Uchima, Cristiane, Anderluh, Gregor, Asaollahi, Mojtaba, Askin, Marion, Barry, Kerrie, Battaglia, Evy, Bayram, Ozgur, Benocci, Tiziano, Braus-Stromeyer, Susanna A., Caldana, Camila, Cánovas, David, Cerqueira, Gustavo C., Chen, Fusheng, Chen, Wanping, Choi, Cindy, Clum, Alicia, Corrêa dos Santos, Renato Augusto, Lima Damásio, André Ricardo de, Diallinas, George, Emri, Tamás, Fekete, Erzébet, Flipphi, Michel, Freyburg, Susanne, Gallo, Antonia, Gournas, Christos, Habgood, Rob, Hainaut, Matthieu, Harispe, Maria Laura, Henrissat, Bernard, Hildén, Kristiina S., Hope, Ryan, Hossain, Abeer, Karabika, Eugenia, Karaffa, Levente, Karanyi, Zsolt, Krasevec, Nada, Kuo, Alan, Kusch, Harald, LaButti, Kurt, Lagendijk, Ellen L., Lapidus, Alla, Levasseur, Anthony, Lindquist, Erika, Lipzen, Anna, Logrieco, Antonio F., MacCabe, Andrew, Mäkela, Miia R., Malavazi, Iran, Melin, Petter, Meyer, Vera, Mielnichuk, Natalia, Miskei, Márton, Molnár, Ákos P., Mulé, Giuseppina, Ngan, Chew Yee, Orejas, Margarita, Orosz, Erzsébet, Ouedraogo, Jean Paul, Overkamp, Karin M., Park, Hee-Soo, Perrone, Giancarlo, Piumi, Francois, Punt, Peter J., Ram, Arthur F.J., Ramon, Ana, Rauscher, Stefan, Record, Eric, Riaño-Pachón, Diego Mauricio, Robert, Vincent, Röhrig, Julian, Ruller, Roberto, Salamov, Asaf, Salih, Nadhira S., Samson, Rob A., Sándor, Erzsébet, Sanguinetti, Manuel, Schütze, Tabea, Sepčić, Kristina, Shelest, Ekaterina, Sherlock, Gavin, Sophianopoulou, Vicky, Squina, Fabio M., Sun, Hui, Susca, Antonia, Todd, Richard B., Tsang, Adrian, Unkles, Shiela E., Wiele, Nathalie van de, Rossen-Uffink, Diana van, Velasco de Castro Oliveira, Juliana, Vesth, Tammi C., Visser, Jaap, Yu, Jae-Hyuk, Zhou, Miaomiao, Andersen, Mikael R., Archer, David B., Baker, Scott E., Benoit, Isabelle, Brakhage, Axel A., Braus, Gerhard H., Fischer, Reinhard, Frisvad, Jens C., Goldman, Gustavo H., Houbraken, Jos, Oakley, Berl, Pócsi, István, Scazzocchio, Claudio, Seiboth, Bernhard, vanKuyk, Patricia A., Wortman, Jennifer, Dyer, Paul S., Grigoriev, Igor V., Vries, Ronald P. de, Riley, Robert, Wiebenga, Ad, Aguilar-Osorio, Guillermo, Amillis, Sotiris, Akemi Uchima, Cristiane, Anderluh, Gregor, Asaollahi, Mojtaba, Askin, Marion, Barry, Kerrie, Battaglia, Evy, Bayram, Ozgur, Benocci, Tiziano, Braus-Stromeyer, Susanna A., Caldana, Camila, Cánovas, David, Cerqueira, Gustavo C., Chen, Fusheng, Chen, Wanping, Choi, Cindy, Clum, Alicia, Corrêa dos Santos, Renato Augusto, Lima Damásio, André Ricardo de, Diallinas, George, Emri, Tamás, Fekete, Erzébet, Flipphi, Michel, Freyburg, Susanne, Gallo, Antonia, Gournas, Christos, Habgood, Rob, Hainaut, Matthieu, Harispe, Maria Laura, Henrissat, Bernard, Hildén, Kristiina S., Hope, Ryan, Hossain, Abeer, Karabika, Eugenia, Karaffa, Levente, Karanyi, Zsolt, Krasevec, Nada, Kuo, Alan, Kusch, Harald, LaButti, Kurt, Lagendijk, Ellen L., Lapidus, Alla, Levasseur, Anthony, Lindquist, Erika, Lipzen, Anna, Logrieco, Antonio F., MacCabe, Andrew, Mäkela, Miia R., Malavazi, Iran, Melin, Petter, Meyer, Vera, Mielnichuk, Natalia, Miskei, Márton, Molnár, Ákos P., Mulé, Giuseppina, Ngan, Chew Yee, Orejas, Margarita, Orosz, Erzsébet, Ouedraogo, Jean Paul, Overkamp, Karin M., Park, Hee-Soo, Perrone, Giancarlo, Piumi, Francois, Punt, Peter J., Ram, Arthur F.J., Ramon, Ana, Rauscher, Stefan, Record, Eric, Riaño-Pachón, Diego Mauricio, Robert, Vincent, Röhrig, Julian, Ruller, Roberto, Salamov, Asaf, Salih, Nadhira S., Samson, Rob A., Sándor, Erzsébet, Sanguinetti, Manuel, Schütze, Tabea, Sepčić, Kristina, Shelest, Ekaterina, Sherlock, Gavin, Sophianopoulou, Vicky, Squina, Fabio M., Sun, Hui, Susca, Antonia, Todd, Richard B., Tsang, Adrian, Unkles, Shiela E., Wiele, Nathalie van de, Rossen-Uffink, Diana van, Velasco de Castro Oliveira, Juliana, Vesth, Tammi C., Visser, Jaap, Yu, Jae-Hyuk, Zhou, Miaomiao, Andersen, Mikael R., Archer, David B., Baker, Scott E., Benoit, Isabelle, Brakhage, Axel A., Braus, Gerhard H., Fischer, Reinhard, Frisvad, Jens C., Goldman, Gustavo H., Houbraken, Jos, Oakley, Berl, Pócsi, István, Scazzocchio, Claudio, Seiboth, Bernhard, vanKuyk, Patricia A., Wortman, Jennifer, Dyer, Paul S., and Grigoriev, Igor V.

Abstract

Background: The fungal genus Aspergillus is of critical importance to humankind. Species include those with industrial applications, important pathogens of humans, animals and crops, a source of potent carcinogenic contaminants of food, and an important genetic model. The genome sequences of eight aspergilli have already been explored to investigate aspects of fungal biology, raising questions about evolution and specialization within this genus. Results: We have generated genome sequences for ten novel, highly diverse Aspergillus species and compared these in detail to sister and more distant genera. Comparative studies of key aspects of fungal biology, including primary and secondary metabolism, stress response, biomass degradation, and signal transduction, revealed both conservation and diversity among the species. Observed genomic differences were validated with experimental studies. This revealed several highlights, such as the potential for sex in asexual species, organic acid production genes being a key feature of black aspergilli, alternative approaches for degrading plant biomass, and indications for the genetic basis of stress response. A genome-wide phylogenetic analysis demonstrated in detail the relationship of the newly genome sequenced species with other aspergilli. Conclusions: Many aspects of biological differences between fungal species cannot be explained by current knowledge obtained from genome sequences. The comparative genomics and experimental study, presented here, allows for the first time a genus-wide view of the biological diversity of the aspergilli and in many, but not all, cases linked genome differences to phenotype. Insights gained could be exploited for biotechnological and medical applications of fungi.

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312. Comparative genomics reveals high biological diversity and specific adaptations in the industrially and medically important fungal genus Aspergillus

Author

Vries, Ronald P. de, Riley, Robert, Wiebenga, Ad, Aguilar-Osorio, Guillermo, Amillis, Sotiris, Akemi Uchima, Cristiane, Anderluh, Gregor, Asaollahi, Mojtaba, Askin, Marion, Barry, Kerrie, Battaglia, Evy, Bayram, Ozgur, Benocci, Tiziano, Braus-Stromeyer, Susanna A., Caldana, Camila, Cánovas, David, Cerqueira, Gustavo C., Chen, Fusheng, Chen, Wanping, Choi, Cindy, Clum, Alicia, Corrêa dos Santos, Renato Augusto, Lima Damásio, André Ricardo de, Diallinas, George, Emri, Tamás, Fekete, Erzébet, Flipphi, Michel, Freyburg, Susanne, Gallo, Antonia, Gournas, Christos, Habgood, Rob, Hainaut, Matthieu, Harispe, Maria Laura, Henrissat, Bernard, Hildén, Kristiina S., Hope, Ryan, Hossain, Abeer, Karabika, Eugenia, Karaffa, Levente, Karanyi, Zsolt, Krasevec, Nada, Kuo, Alan, Kusch, Harald, LaButti, Kurt, Lagendijk, Ellen L., Lapidus, Alla, Levasseur, Anthony, Lindquist, Erika, Lipzen, Anna, Logrieco, Antonio F., MacCabe, Andrew, Mäkela, Miia R., Malavazi, Iran, Melin, Petter, Meyer, Vera, Mielnichuk, Natalia, Miskei, Márton, Molnár, Ákos P., Mulé, Giuseppina, Ngan, Chew Yee, Orejas, Margarita, Orosz, Erzsébet, Ouedraogo, Jean Paul, Overkamp, Karin M., Park, Hee-Soo, Perrone, Giancarlo, Piumi, Francois, Punt, Peter J., Ram, Arthur F.J., Ramon, Ana, Rauscher, Stefan, Record, Eric, Riaño-Pachón, Diego Mauricio, Robert, Vincent, Röhrig, Julian, Ruller, Roberto, Salamov, Asaf, Salih, Nadhira S., Samson, Rob A., Sándor, Erzsébet, Sanguinetti, Manuel, Schütze, Tabea, Sepčić, Kristina, Shelest, Ekaterina, Sherlock, Gavin, Sophianopoulou, Vicky, Squina, Fabio M., Sun, Hui, Susca, Antonia, Todd, Richard B., Tsang, Adrian, Unkles, Shiela E., Wiele, Nathalie van de, Rossen-Uffink, Diana van, Velasco de Castro Oliveira, Juliana, Vesth, Tammi C., Visser, Jaap, Yu, Jae-Hyuk, Zhou, Miaomiao, Andersen, Mikael R., Archer, David B., Baker, Scott E., Benoit, Isabelle, Brakhage, Axel A., Braus, Gerhard H., Fischer, Reinhard, Frisvad, Jens C., Goldman, Gustavo H., Houbraken, Jos, Oakley, Berl, Pócsi, István, Scazzocchio, Claudio, Seiboth, Bernhard, vanKuyk, Patricia A., Wortman, Jennifer, Dyer, Paul S., Grigoriev, Igor V., Vries, Ronald P. de, Riley, Robert, Wiebenga, Ad, Aguilar-Osorio, Guillermo, Amillis, Sotiris, Akemi Uchima, Cristiane, Anderluh, Gregor, Asaollahi, Mojtaba, Askin, Marion, Barry, Kerrie, Battaglia, Evy, Bayram, Ozgur, Benocci, Tiziano, Braus-Stromeyer, Susanna A., Caldana, Camila, Cánovas, David, Cerqueira, Gustavo C., Chen, Fusheng, Chen, Wanping, Choi, Cindy, Clum, Alicia, Corrêa dos Santos, Renato Augusto, Lima Damásio, André Ricardo de, Diallinas, George, Emri, Tamás, Fekete, Erzébet, Flipphi, Michel, Freyburg, Susanne, Gallo, Antonia, Gournas, Christos, Habgood, Rob, Hainaut, Matthieu, Harispe, Maria Laura, Henrissat, Bernard, Hildén, Kristiina S., Hope, Ryan, Hossain, Abeer, Karabika, Eugenia, Karaffa, Levente, Karanyi, Zsolt, Krasevec, Nada, Kuo, Alan, Kusch, Harald, LaButti, Kurt, Lagendijk, Ellen L., Lapidus, Alla, Levasseur, Anthony, Lindquist, Erika, Lipzen, Anna, Logrieco, Antonio F., MacCabe, Andrew, Mäkela, Miia R., Malavazi, Iran, Melin, Petter, Meyer, Vera, Mielnichuk, Natalia, Miskei, Márton, Molnár, Ákos P., Mulé, Giuseppina, Ngan, Chew Yee, Orejas, Margarita, Orosz, Erzsébet, Ouedraogo, Jean Paul, Overkamp, Karin M., Park, Hee-Soo, Perrone, Giancarlo, Piumi, Francois, Punt, Peter J., Ram, Arthur F.J., Ramon, Ana, Rauscher, Stefan, Record, Eric, Riaño-Pachón, Diego Mauricio, Robert, Vincent, Röhrig, Julian, Ruller, Roberto, Salamov, Asaf, Salih, Nadhira S., Samson, Rob A., Sándor, Erzsébet, Sanguinetti, Manuel, Schütze, Tabea, Sepčić, Kristina, Shelest, Ekaterina, Sherlock, Gavin, Sophianopoulou, Vicky, Squina, Fabio M., Sun, Hui, Susca, Antonia, Todd, Richard B., Tsang, Adrian, Unkles, Shiela E., Wiele, Nathalie van de, Rossen-Uffink, Diana van, Velasco de Castro Oliveira, Juliana, Vesth, Tammi C., Visser, Jaap, Yu, Jae-Hyuk, Zhou, Miaomiao, Andersen, Mikael R., Archer, David B., Baker, Scott E., Benoit, Isabelle, Brakhage, Axel A., Braus, Gerhard H., Fischer, Reinhard, Frisvad, Jens C., Goldman, Gustavo H., Houbraken, Jos, Oakley, Berl, Pócsi, István, Scazzocchio, Claudio, Seiboth, Bernhard, vanKuyk, Patricia A., Wortman, Jennifer, Dyer, Paul S., and Grigoriev, Igor V.

Abstract

Background: The fungal genus Aspergillus is of critical importance to humankind. Species include those with industrial applications, important pathogens of humans, animals and crops, a source of potent carcinogenic contaminants of food, and an important genetic model. The genome sequences of eight aspergilli have already been explored to investigate aspects of fungal biology, raising questions about evolution and specialization within this genus. Results: We have generated genome sequences for ten novel, highly diverse Aspergillus species and compared these in detail to sister and more distant genera. Comparative studies of key aspects of fungal biology, including primary and secondary metabolism, stress response, biomass degradation, and signal transduction, revealed both conservation and diversity among the species. Observed genomic differences were validated with experimental studies. This revealed several highlights, such as the potential for sex in asexual species, organic acid production genes being a key feature of black aspergilli, alternative approaches for degrading plant biomass, and indications for the genetic basis of stress response. A genome-wide phylogenetic analysis demonstrated in detail the relationship of the newly genome sequenced species with other aspergilli. Conclusions: Many aspects of biological differences between fungal species cannot be explained by current knowledge obtained from genome sequences. The comparative genomics and experimental study, presented here, allows for the first time a genus-wide view of the biological diversity of the aspergilli and in many, but not all, cases linked genome differences to phenotype. Insights gained could be exploited for biotechnological and medical applications of fungi.

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313. Archaeal aminoacyl-tRNA synthetases interact with the ribosome to recycle tRNAs

Author

Godinic-Mikulcic, Vlatka, Jaric, Jelena, Greber, Basil J., Franke, Vedran, Hodnik, Vesna, Anderluh, Gregor, Ban, Nenad, Weygand-Durasevic, Ivana, Godinic-Mikulcic, Vlatka, Jaric, Jelena, Greber, Basil J., Franke, Vedran, Hodnik, Vesna, Anderluh, Gregor, Ban, Nenad, and Weygand-Durasevic, Ivana

Abstract

Aminoacyl-tRNA synthetases (aaRS) are essential enzymes catalyzing the formation of aminoacyl-tRNAs, the immediate precursors for encoded peptides in ribosomal protein synthesis. Previous studies have suggested a link between tRNA aminoacylation and high-molecular-weight cellular complexes such as the cytoskeleton or ribosomes. However, the structural basis of these interactions and potential mechanistic implications are not well understood. To biochemically characterize these interactions we have used a system of two interacting archaeal aaRSs: an atypical methanogenic-type seryl-tRNA synthetase and an archaeal ArgRS. More specifically, we have shown by thermophoresis and surface plasmon resonance that these two aaRSs bind to the large ribosomal subunit with micromolar affinities. We have identified the L7/L12 stalk and the proteins located near the stalk base as the main sites for aaRS binding. Finally, we have performed a bioinformatics analysis of synonymous codons in the Methanothermobacter thermautotrophicus genome that supports a mechanism in which the deacylated tRNAs may be recharged by aaRSs bound to the ribosome and reused at the next occurrence of a codon encoding the same amino acid. These results suggest a mechanism of tRNA recycling in which aaRSs associate with the L7/L12 stalk region to recapture the tRNAs released from the preceding ribosome in polysomes

316. Molecular mechanism of pore formation by aerolysin-like proteins.

Author

Podobnik, Marjetka, Kisovec, Matic, and Anderluh, Gregor

Subjects
*MEMBRANE proteins, *CELL membranes, *AEROLYSIN, *IMMUNITY, *OLIGOMERIZATION
Abstract

Aerolysin-like pore-forming proteins are an important family of proteins able to efficiently damage membranes of target cells by forming transmembrane pores. They are characterized by a unique domain organization and mechanism of action that involves extensive conformational rearrangements. Although structures of soluble forms of many different members of this family are well understood, the structures of pores and their mechanism of assembly have been described only recently. The pores are characterized by well-defined b-barrels, which are devoid of any vestibular regions commonly found in other protein pores. Many members of this family are bacterial toxins; therefore, structural details of their transmembrane pores, aswell as the mechanism of pore formation, are an important base for future drug design. Stability of pores and other properties, such as specificity for some cell surface molecules, make this family of proteins a useful set of molecular tools for molecular recognition and sensing in cell biology. [ABSTRACT FROM AUTHOR]

Published
2017
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317. Disruption of plant plasma membrane by Nep1‐like proteins in pathogen–plant interactions.

Author

Pirc, Katja, Albert, Isabell, Nürnberger, Thorsten, and Anderluh, Gregor

Subjects
*PLANT plasma membranes, *PLASMA instabilities, *MEMBRANE proteins, *PROTEIN-protein interactions, *LATE blight of potato, *BLIGHT diseases (Botany)
Abstract

Summary: Lipid membrane destruction by microbial pore‐forming toxins (PFTs) is a ubiquitous mechanism of damage to animal cells, but is less prominent in plants. Nep1‐like proteins (NLPs) secreted by phytopathogens that cause devastating crop diseases, such as potato late blight, represent the only family of microbial PFTs that effectively damage plant cells by disrupting the integrity of the plant plasma membrane. Recent research has elucidated the molecular mechanism of NLP‐mediated membrane damage, which is unique among microbial PFTs and highly adapted to the plant membrane environment. In this review, we cover recent insight into how NLP cytolysins damage plant membranes and cause cell death. [ABSTRACT FROM AUTHOR]

Published
2023
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319. Expansion and Neofunctionalization of Actinoporin-like Genes in Mediterranean Mussel (Mytilus galloprovincialis).

Author

Koritnik, Neža, Gerdol, Marco, Šolinc, Gašper, Švigelj, Tomaž, Caserman, Simon, Merzel, Franci, Holden, Ellie, Benesch, Justin L P, Trenti, Francesco, Guella, Graziano, Pallavicini, Alberto, Modica, Maria Vittoria, Podobnik, Marjetka, and Anderluh, Gregor

Subjects
*MYTILUS galloprovincialis, *SEA anemones, *DRUG target, *MEMBRANE lipids, *MUSSELS, *GENE families
Abstract

Pore-forming toxins are an important component of the venom of many animals. Actinoporins are potent cytolysins that were first detected in the venom of sea anemones; however, they are occasionally found in animals other than cnidarians and are expanded in a few predatory gastropods. Here, we report the presence of 27 unique actinoporin-like genes with monophyletic origin in Mytilus galloprovincialis , which we have termed mytiporins. These mytiporins exhibited a remarkable level of molecular diversity and gene presence–absence variation, which warranted further studies aimed at elucidating their functional role. We structurally and functionally characterized mytiporin-1 and found significant differences from the archetypal actinoporin fragaceatoxin C. Mytiporin-1 showed weaker permeabilization activity, no specificity towards sphingomyelin, and weak activity in model lipid systems with negatively charged lipids. In contrast to fragaceatoxin C, which forms octameric pores, functional mytiporin-1 pores on negatively charged lipid membranes were hexameric. Similar hexameric pores were observed for coluporin-26 from Cumia reticulata and a conoporin from Conus andremenezi. This indicates that also other molluscan actinoporin-like proteins differ from fragaceatoxin C. Although the functional role of mytiporins in the context of molluscan physiology remains to be elucidated, the lineage-specific gene family expansion event that characterizes mytiporins indicates that strong selective forces acted on their molecular diversification. Given the tissue distribution of mytiporins, this process may have broadened the taxonomic breadth of their biological targets, which would have important implications for digestive processes or mucosal immunity. [ABSTRACT FROM AUTHOR]

Published
2022
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320. Pore-forming moss protein bryoporin is structurally and mechanistically related to actinoporins from evolutionarily distant cnidarians.

Author

Šolinc, Gašper, Švigelj, Tomaž, Omersa, Neža, Snoj, Tina, Pire, Katja, Žnidaršič, Nada, Yamaji-Hasegawa, Akiko, Kobayashi, Toshihide, Anderluh, Gregor, and Podobnik, Marjetka

Subjects
*AMINO acid sequence, *BACTERIAL proteins, *PROTEINS, *CNIDARIA, *SEA anemones, *MOLECULAR structure, *AQUAPORINS
Abstract

Pore-forming proteins perforate lipid membranes and consequently affect their integrity and cell fitness. Therefore, it is not surprising that many of these proteins from bacteria, fungi, or certain animals act as toxins. While pore-forming proteins have also been found in plants, there is little information about their molecular structure and mode of action. Bryoporin is a protein from the moss Physcomitrium patens, and its corresponding gene was found to be upregulated by various abiotic stresses, especially dehydration, as well as upon fungal infection. Based on the amino acid sequence, it was suggested that bryoporin was related to the actinoporin family of pore-forming proteins, originally discovered in sea anemones. Here, we provide the first detailed structural and functional analysis of this plant cytolysin. The crystal structure of monomeric bryoporin is highly similar to those of actinoporins. Our cryo-EM analysis of its pores showed an actinoporin-like octameric structure, thereby revealing a close kinship of proteins from evolutionarily distant organisms. This was further confirmed by our observation of bryoporin's preferential binding to and formation of pores in membranes containing animal sphingolipids, such as sphingomyelin and ceramide phosphoethanolamine; however, its binding affinity was weaker than that of actinoporin equinatoxin II. We determined bryoporin did not bind to major sphingolipids found in fungi or plants, and its membrane-binding and pore-forming activity was enhanced by various sterols. Our results suggest that bryoporin could represent a part of the moss defense arsenal, acting as a pore-forming toxin against membranes of potential animal pathogens, parasites, or predators. [ABSTRACT FROM AUTHOR]

Published
2022
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321. Sequestration of membrane cholesterol by cholesterol-binding proteins inhibits SARS-CoV-2 entry into Vero E6 cells.

Author

Kulma, Magdalena, Šakanović, Aleksandra, Bedina-Zavec, Apolonija, Caserman, Simon, Omersa, Neža, Šolinc, Gašper, Orehek, Sara, Hafner-Bratkovič, Iva, Kuhar, Urška, Slavec, Brigita, Krapež, Uroš, Ocepek, Matjaž, Kobayashi, Toshihide, Kwiatkowska, Katarzyna, Jerala, Roman, Podobnik, Marjetka, and Anderluh, Gregor

Subjects
*SARS-CoV-2, *MEMBRANE proteins, *BLOOD proteins
Abstract

Membrane lipids and proteins form dynamic domains crucial for physiological and pathophysiological processes, including viral infection. Many plasma membrane proteins, residing within membrane domains enriched with cholesterol (CHOL) and sphingomyelin (SM), serve as receptors for attachment and entry of viruses into the host cell. Among these, human coronaviruses, including severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), use proteins associated with membrane domains for initial binding and internalization. We hypothesized that the interaction of lipid-binding proteins with CHOL in plasma membrane could sequestrate lipids and thus affect the efficiency of virus entry into host cells, preventing the initial steps of viral infection. We have prepared CHOL-binding proteins with high affinities for lipids in the plasma membrane of mammalian cells. Binding of the perfringolysin O domain four (D4) and its variant D4E458L to membrane CHOL impaired the internalization of the receptor-binding domain of the SARS-CoV-2 spike protein and the pseudovirus complemented with the SARS-CoV-2 spike protein. SARS-CoV-2 replication in Vero E6 cells was also decreased. Overall, our results demonstrate that the integrity of CHOL-rich membrane domains and the accessibility of CHOL in the membrane play an essential role in SARS-CoV-2 cell entry. • We hypothesized that interaction of lipid-binding proteins with plasma membrane affects virus entry. • The effect of CHOL-binding proteins on virus entry into the cell was tested. • We showed that D4 domain of PFO inhibits SARS-CoV-2 cell entry internalization. • The accessibility of CHOL in the membrane plays a role in SARS-CoV-2 cell entry. [ABSTRACT FROM AUTHOR]

Published
2024
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322. A Secreted Phospholipase A2 Binds to Calmodulin at Sub-micromolar Concentrations of Calcium.

Author

Logonder, Uroš, Jorgačevski, Jernej, Anderluh, Gregor, Petrovič, Uroš, Poberaj, Igor, and Križaj, Igor

Subjects
*PHOSPHOLIPASE A2, *CALMODULIN, *CALCIUM, *PROTEINS, *PLASMONS (Physics)
Abstract

To determine the possibility that calmodulin, a cytosolic regulatory protein, and ammodytoxin, a neurotoxic secreted phospholipase A2, interact in vivo, we studied the dependence of their association on Ca2+. The interaction between the two proteins was positively dependent on Ca2+, and greatest at millimolar concentrations of this ion. Importantly, they interacted already in the presence of sub-micromolar concentrations of Ca2+, as demonstrated by affinity labelling, laser tweezers and surface plasmon resonance. Tight binding of the secreted phospholipase A2 to calmodulin is therefore expected on depolarization of the axolemma, when the concentration of free Ca2+ at active zones rises to 100 μM. These results strengthen the proposal that binding of ammodytoxin to calmodulin is a step in the process of presynaptic toxicity of this and related phospholipases A2. Moreover, they suggest that some other (patho)physiological effects induced by endogenous secreted phospholipases A2 could be also due to their interaction with calmodulin in the cytosol of cells. [ABSTRACT FROM AUTHOR]

Published
2008

323. Nep1-like proteins as a target for plant pathogen control.

Author

Pirc, Katja, Hodnik, Vesna, Snoj, Tina, Lenarčič, Tea, Caserman, Simon, Podobnik, Marjetka, Böhm, Hannah, Albert, Isabell, Kotar, Anita, Plavec, Janez, Borišek, Jure, Damuzzo, Martina, Magistrato, Alessandra, Brus, Boris, Sosič, Izidor, Gobec, Stanislav, Nürnberger, Thorsten, and Anderluh, Gregor

Subjects
*OOMYCETES, *PHYTOPATHOGENIC microorganisms, *PHYTOPHTHORA infestans, *PLANT proteins, *PLANT plasma membranes, *PLANT membranes, *MOLECULES
Abstract

The lack of efficient methods to control the major diseases of crops most important to agriculture leads to huge economic losses and seriously threatens global food security. Many of the most important microbial plant pathogens, including bacteria, fungi, and oomycetes, secrete necrosis- and ethylene-inducing peptide 1 (Nep1)-like proteins (NLPs), which critically contribute to the virulence and spread of the disease. NLPs are cytotoxic to eudicot plants, as they disturb the plant plasma membrane by binding to specific plant membrane sphingolipid receptors. Their pivotal role in plant infection and broad taxonomic distribution makes NLPs a promising target for the development of novel phytopharmaceutical compounds. To identify compounds that bind to NLPs from the oomycetes Pythium aphanidermatum and Phytophthora parasitica, a library of 587 small molecules, most of which are commercially unavailable, was screened by surface plasmon resonance. Importantly, compounds that exhibited the highest affinity to NLPs were also found to inhibit NLP-mediated necrosis in tobacco leaves and Phytophthora infestans growth on potato leaves. Saturation transfer difference-nuclear magnetic resonance and molecular modelling of the most promising compound, anthranilic acid derivative, confirmed stable binding to the NLP protein, which resulted in decreased necrotic activity and reduced ion leakage from tobacco leaves. We, therefore, confirmed that NLPs are an appealing target for the development of novel phytopharmaceutical agents and strategies, which aim to directly interfere with the function of these major microbial virulence factors. The compounds identified in this study represent lead structures for further optimization and antimicrobial product development. Author summary: Nep1-like proteins (NLPs) constitute a large protein family of virulent agents that are prevalent in different microbial taxa such as bacteria, oomycetes, and fungi. NLPs represent an important molecular target for the development of novel plant protection products due to their crucial role in plant diseases and their presence in a number of different organisms. We have identified three small molecular weight compounds that bind to and inhibit the cytotoxic activity of NLPs. These compounds also inhibited NLP-mediated necrosis in tobacco leaves and the growth of the important plant pathogen Phytophthora infestans on potato leaves. [ABSTRACT FROM AUTHOR]

Published
2021
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324. Crystal structure of RahU, an aegerolysin protein from the human pathogen Pseudomonas aeruginosa, and its interaction with membrane ceramide phosphorylethanolamine.

Author

Kočar, Eva, Lenarčič, Tea, Hodnik, Vesna, Panevska, Anastasija, Huang, Yunjie, Bajc, Gregor, Kostanjšek, Rok, Naren, Anjaparavanda P., Maček, Peter, Anderluh, Gregor, Sepčić, Kristina, Podobnik, Marjetka, and Butala, Matej

Subjects
*PROTEINS, *FUNGAL proteins, *CHOLESTEROL, *SPHINGOMYELIN, *SPHINGOLIPIDS, *CELL membranes
Abstract

Aegerolysins are proteins produced by bacteria, fungi, plants and protozoa. The most studied fungal aegerolysins share a common property of interacting with membranes enriched with cholesterol in combination with either sphingomyelin or ceramide phosphorylethanolamine (CPE), major sphingolipids in the cell membranes of vertebrates and invertebrates, respectively. However, genome analyses show a particularly high frequency of aegerolysin genes in bacteria, including the pathogenic genera Pseudomonas and Vibrio; these are human pathogens of high clinical relevance and can thrive in a variety of other species. The knowledge on bacterial aegerolysin-lipid interactions is scarce. We show that Pseudomonas aeruginosa aegerolysin RahU interacts with CPE, but not with sphingomyelin-enriched artificial membranes, and that RahU interacts with the insect cell line producing CPE. We report crystal structures of RahU alone and in complex with tris(hydroxymethyl)aminomethane (Tris), which, like the phosphorylethanolamine head group of CPE, contains a primary amine. The RahU structures reveal that the two loops proximal to the amino terminus form a cavity that accommodates Tris, and that the flexibility of these two loops is important for this interaction. We show that Tris interferes with CPE-enriched membranes for binding to RahU, implying on the importance of the ligand cavity between the loops and its proximity in RahU membrane interaction. We further support this by studying the interaction of single amino acid substitution mutants of RahU with the CPE-enriched membranes. Our results thus represent a starting point for a better understanding of the role of P. aeruginosa RahU, and possibly other bacterial aegerolysins, in bacterial interactions with other organisms. [ABSTRACT FROM AUTHOR]

Published
2021
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325. The new COST Action European Venom Network (EUVEN)—synergy and future perspectives of modern venomics.

Author

Modica, Maria Vittoria, Ahmad, Rafi, Ainsworth, Stuart, Anderluh, Gregor, Antunes, Agostinho, Beis, Dimitris, Caliskan, Figen, Serra, Mauro Dalla, Dutertre, Sebastien, Moran, Yehu, Nalbantsoy, Ayse, Oukkache, Naoual, Pekar, Stano, Remm, Maido, von Reumont, Bjoern Marcus, Sarigiannis, Yiannis, Tarallo, Andrea, Tytgat, Jan, Undheim, Eivind Andreas Baste, and Utkin, Yuri

Subjects
*PHARMACOLOGY, *MEDICAL informatics, *COST, *BIOLOGY, *VENOM
Abstract

Venom research is a highly multidisciplinary field that involves multiple subfields of biology, informatics, pharmacology, medicine, and other areas. These different research facets are often technologically challenging and pursued by different teams lacking connection with each other. This lack of coordination hampers the full development of venom investigation and applications. The COST Action CA19144–European Venom Network was recently launched to promote synergistic interactions among different stakeholders and foster venom research at the European level. [ABSTRACT FROM AUTHOR]

Published
2021
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326. Affinity Ranking of Phage-Displayed Peptides: Enzyme-Linked Immunosorbent Assay versus Surface Plasmon Resonance.

Author

Lunder, Mojca, Bratkovič, Toma, Anderluh, Gregor, Štrukelj, Borut, and Kreft, Samo

Subjects
*ENZYME-linked immunosorbent assay, *PLASMONS (Physics), *EXCITON theory, *STREPTAVIDIN, *PEPTIDES, *PROTEINS
Abstract

Peptides with particular affinity and specificity for variety of targets are selected through panning procedure from random peptide phage display libraries. Efficiency and convenience of enzyme linked immunosorbent assay (ELISA) and surface plasmon resonance (SPR) for screening and evaluating peptide-displaying phage clones were compared using streptavidin as a model protein target. [ABSTRACT FROM AUTHOR]

Published
2008

327. Phosphocholine Antagonizes Listeriolysin O-Induced Host Cell Responses of Listeria monocytogenes.

Author

La Pietra, Luigi, Hudel, Martina, Pillich, Helena, Abu Mraheil, Mobarak, Berisha, Besim, Aden, Saša, Hodnik, Vesna, Lochnit, Günter, Rafiq, Amir, Perniss, Alexander, Anderluh, Gregor, and Chakraborty, Trinad

Abstract

Background: Bacterial toxins disrupt plasma membrane integrity with multitudinous effects on host cells. The secreted pore-forming toxin listeriolysin O (LLO) of the intracellular pathogen Listeria monocytogenes promotes egress of the bacteria from vacuolar compartments into the host cytosol often without overt destruction of the infected cell. Intracellular LLO activity is tightly controlled by host factors including compartmental pH, redox, proteolytic, and proteostatic factors, and inhibited by cholesterol.Methods: Combining infection studies of L. monocytogenes wild type and isogenic mutants together with biochemical studies with purified phospholipases, we investigate the effect of their enzymatic activities on LLO.Results: Here, we show that phosphocholine (ChoP), a reaction product of the phosphatidylcholine-specific phospholipase C (PC-PLC) of L. monocytogenes, is a potent inhibitor of intra- and extracellular LLO activities. Binding of ChoP to LLO is redox-independent and leads to the inhibition of LLO-dependent induction of calcium flux, mitochondrial damage, and apoptosis. ChoP also inhibits the hemolytic activities of the related cholesterol-dependent cytolysins (CDC), pneumolysin and streptolysin.Conclusions: Our study uncovers a strategy used by L. monocytogenes to modulate cytotoxic LLO activity through the enzymatic activity of its PC-PLC. This mechanism appears to be widespread and also used by other CDC pore-forming toxin-producing bacteria. [ABSTRACT FROM AUTHOR]

Published
2020
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328. Selective inhibition of NLRP3 inflammasome by designed peptide originating from ASC.

Author

Sušjan, Petra, Lainšček, Duško, Strmšek, Žiga, Hodnik, Vesna, Anderluh, Gregor, and Hafner‐Bratkovič, Iva

Abstract

NACHT, LRR, and PYD domains‐containing protein 3 (NLRP3) inflammasome is a multiprotein complex which forms within cells in response to various microbial and self‐derived triggers. Mutations in the gene encoding NLRP3 cause rare cryopyrin‐associated periodic syndromes (CAPS) and growing evidence links NLRP3 inflammasome to common diseases such as Alzheimer´s disease. In order to modulate different stages of NLRP3 inflammasome assembly nine peptides whose sequences correspond to segments of inflammasome components NLRP3 and apoptosis‐associated speck‐like protein containing a CARD (ASC) were selected. Five peptides inhibited IL‐1β release, caspase‐1 activation and ASC oligomerization in response to soluble and particulate NLRP3 triggers. Modulatory peptides also attenuated IL‐1β maturation induced by constitutive CAPS‐associated NLRP3 mutants. Peptide corresponding to H2‐H3 segment of ASC pyrin domain selectively inhibited NLRP3 inflammasome by binding to NLRP3 pyrin domain in the micromolar range. The peptide had no effect on AIM2 and NLRC4 inflammasomes as well as NF‐κB pathway. The peptide effectively dampened neutrophil infiltration in the silica‐induced peritonitis and when equipped with Antennapedia or Angiopep‐2 motifs crossed the blood‐brain barrier in a mouse model. Our study demonstrates that peptides represent an important tool for targeting multiprotein inflammatory complexes and can serve as the basis for the development of novel anti‐inflammatory strategies for neurodegeneration. [ABSTRACT FROM AUTHOR]

Published
2020
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329. Structure and mechanism of bactericidal mammalian perforin-2, an ancient agent of innate immunity.

Author

Tao Ni, Fang Jiao, Xiulian Yu, Aden, Saša, Ginger, Lucy, Williams, Sophie I., Fangfang Bai, Pražák, Vojtěch, Karia, Dimple, Stansfeld, Phillip, Peijun Zhang, Munson, George, Anderluh, Gregor, Scheuring, Simon, and Gilbert, Robert J. C.

Subjects
*PERFORINS, *NATURAL immunity, *LIFE sciences, *RHODAMINE B, *STAPHYLOCOCCUS aureus infections, *MOLECULAR interactions, *MOLECULAR dynamics, *DEXTRAN
Abstract

The article presents a study on structure and mechanism of bactericidal mammalian perforin-2, an ancient agent of innate immunity. Topics discussed include killing of invading microbes engulfed by macrophages and other phagocytes, forming pores in their membranes; perforin-2 renders individual phagocytes and whole organisms significantly more susceptible to bacterial pathogens; and the mechanism of perforin-2 activation and activity using atomic structures of pre-pore and pore assemblies.

Published
2020
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330. Priprava in karakterizacija por aktinoporinom-podobnih proteinov

Author

Rejc, Sebastjan and Anderluh, Gregor

Subjects
pora, biosenzorji, pore-forming protein, histone, porotvorni proteini, Biotehnologija, biosensor, aktinoporini, actinoporins, histoni, Biotechnology
Abstract

Aktinoporini in aktinoporinom podobni proteini predstavljajo veliko skupino α-porotvornih proteinov. Ob vezavi na membrane pride do konformacijske spremembe monomerne oblike, sledi oligomerizacija, kjer pride do povezovanja večjega števila monomerov in tvorbe pore. Velik napredek je narejen na področju uporabe por kot biosenzorjev, kjer so zahteve po robustnih porah, z možnostjo nadaljnjih modifikacij za spreminjanje njihovih lastnosti. V okviru magistrske naloge smo v celicah E.coli BL21 (DE3), izrazili 10 konstruktov aktinoporinskega homologa osnovanega na EST zaporedju iz Orbicella faveolata (Fav). Proteine smo izolirali in očistili z nikelj-afinitetno kromatografijo in njihovo porotvornost potrdili z izvedbo testa hemolize. Sposobnost oligomerizacije in vstavljanja v lipidne membrane smo potrdili tudi na sistemu Orbit mini, kjer smo v membrano DOPC:SM uspešno vstavili vse konstrukte in tako uspešno izvedli biofizikalno karakterizacijo. Za izbor konstrukta, ki izkazuje najmanjši šum električnega toka v primerjavi s kontrolnim konstruktom smo izvedli predhodno tvorbo por in analizo s sistemom Orbit mini na stabilnejših membranah iz lipidov DPhPC. Konstrukt z najmanjšim šumom smo uporabili za poskuse zaznavanja. Za uspešno zaznavanje je bilo potrebno optimizirati električno napetost, njeno polariteto, puferske raztopine in koncentracijo proteina, da smo kljub visoki tendenci do vstavljanja v membrane, pridobili meritve z nizkim tokom, ki odraža prisotnost ene ali dveh por. Ob dodatku histonov H3.1 in H4 so bile vidne specifične blokade, ki omogočajo ločbo med dvema histonskima variantama, ki se v glavnem razlikujeta le v neto naboju in dolžini N-končnega pozitivno nabitega histonskega repka. Actinoporins and actinoporin-like proteins represent a large group of α-pore-forming proteins. Upon binding to membranes, a conformational change of the monomer form occurs, followed by oligomerization, where a larger number of monomers assemble to form a pore. Lots of research and development is being conducted to be able to use pores as biosensors. Such application requires a robust pore, which can be further modified to augment its properties. As part of the Master's thesis, we expressed 10 actinoporin homolog constructs based on the EST sequence from Orbicella faveolata (Fav) in E.coli BL21 (DE3) cells. Proteins were isolated and purified by nickel-affinity chromatography, and their pore-forming ability was confirmed by performing a hemolysis test. The ability to oligomerize and insert into lipid membranes was also confirmed on the Orbit mini system, where we successfully inserted all constructs into the DOPC:SM membrane. We were able to perform biophysical characterization. To select the construct that exhibits the smallest electric current noise compared to the control construct, we performed preliminary pore formation and analysis with the Orbit mini system on more stable membranes made of DPhPC lipids. The construct with the lowest noise was used for histone detection experiments. For successful detection, it was necessary to optimize the electric voltage, its polarity, buffer solutions and protein concentration, so that despite Fav’s high tendency to insert into the membranes, we obtained measurements with a low current, which reflects the presence of only one or two pores. Upon the addition of histones H3.1 and H4, different types of blockages were observed, which indicates the ability to separate between the two histone variants, which mainly differ only in the net charge and the length of the N-terminal positively charged histone tail.

Published
2023

334. Perforin and Human Diseases

Author

Naneh, Omar, Avčin, Tadej, Bedina Zavec, Apolonija, Harris, Robin, Series editor, Anderluh, Gregor, editor, and Gilbert, Robert, editor

Published
2014
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344. Functional studies of aegerolysin and MACPF‐like proteins in Aspergillus niger.

Author

Novak, Maruša, Čepin, Urška, Hodnik, Vesna, Narat, Mojca, Jamnik, Maja, Kraševec, Nada, Sepčić, Kristina, and Anderluh, Gregor

Subjects
*ASPERGILLUS niger, *PERFORINS, *MEMBRANE lipids, *PROTEINS, *CELL membranes
Abstract

Summary: Proteins of the aegerolysin family have a high abundance in Fungi. Due to their specific binding to membrane lipids, and their membrane‐permeabilization potential in concert with protein partner(s) belonging to a membrane‐attack‐complex/perforin (MACPF) superfamily, they were proposed as useful tools in different biotechnological and biomedical applications. In this work, we performed functional studies on expression of the genes encoding aegerolysin and MACPF‐like proteins in Aspergillus niger. Our results suggest the sporulation process being crucial for strong induction of the expression of all these genes. However, deletion of either of the aegerolysin genes did not influence the growth, development, sporulation efficiency and phenotype of the mutants, indicating that aegerolysins are not key factors in the sporulation process. In all our expression studies we noticed a strong correlation in the expression of one aegerolysin and MACPF‐like gene. Aegerolysins were confirmed to be secreted from the fungus. We also showed the specific interaction of a recombinant A. niger aegerolysin with an invertebrate‐specific membrane sphingolipid. Moreover, using this protein labelled with mCherry we successfully stained insect cells membranes containing this particular sphingolipid. Our combined results suggest, that aegerolysins in this species, and probably also in other aspergilli, could be involved in defence against predators. [ABSTRACT FROM AUTHOR]

Published
2019
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345. Molecular basis for functional diversity among microbial Nep1-like proteins.

Author

Lenarčič, Tea, Pirc, Katja, Hodnik, Vesna, Albert, Isabell, Borišek, Jure, Magistrato, Alessandra, Nürnberger, Thorsten, Podobnik, Marjetka, and Anderluh, Gregor

Subjects
*MICROBIAL diversity, *PHYTOPATHOGENIC microorganisms, *OOMYCETES, *MOLECULAR dynamics, *SCAFFOLD proteins, *BOTANY
Abstract

Necrosis and ethylene-inducing peptide 1 (Nep1)-like proteins (NLPs) are secreted by several phytopathogenic microorganisms. They trigger necrosis in various eudicot plants upon binding to plant sphingolipid glycosylinositol phosphorylceramides (GIPC). Interestingly, HaNLP3 from the obligate biotroph oomycete Hyaloperonospora arabidopsidis does not induce necrosis. We determined the crystal structure of HaNLP3 and showed that it adopts the NLP fold. However, the conformations of the loops surrounding the GIPC headgroup-binding cavity differ from those of cytotoxic Pythium aphanidermatum NLPPya. Essential dynamics extracted from μs-long molecular dynamics (MD) simulations reveals a limited conformational plasticity of the GIPC-binding cavity in HaNLP3 relative to toxic NLPs. This likely precludes HaNLP3 binding to GIPCs, which is the underlying reason for the lack of toxicity. This study reveals that mutations at key protein regions cause a switch between non-toxic and toxic phenotypes within the same protein scaffold. Altogether, these data provide evidence that protein flexibility is a distinguishing trait of toxic NLPs and highlight structural determinants for a potential functional diversification of non-toxic NLPs utilized by biotrophic plant pathogens. [ABSTRACT FROM AUTHOR]

Published
2019
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346. Arabidopsis seryl‐tRNA synthetase: the first crystal structure and novel protein interactor of plant aminoacyl‐tRNA synthetase.

Author

Kekez, Mario, Zanki, Vladimir, Kekez, Ivana, Baranasic, Jurica, Hodnik, Vesna, Duchêne, Anne‐Marie, Anderluh, Gregor, Gruic‐Sovulj, Ita, Matković‐Čalogović, Dubravka, Weygand‐Durasevic, Ivana, and Rokov‐Plavec, Jasmina

Subjects
*ARABIDOPSIS thaliana, *RNA ligases, *BRASSINOSTEROIDS, *AMINOACYLATION, *CRYSTAL structure
Abstract

The rules of the genetic code are established by aminoacyl‐tRNA synthetases (aaRSs) enzymes, which covalently link tRNA with the cognate amino acid. Many aaRSs are involved in diverse cellular processes beyond translation, acting alone, or in complex with other proteins. However, studies of aaRS noncanonical assembly and functions in plants are scarce, as are structural studies of plant aaRSs. Here, we have solved the crystal structure of Arabidopsis thaliana cytosolic seryl‐tRNA synthetase (SerRS), which is the first crystallographic structure of a plant aaRS. Arabidopsis SerRS displays structural features typical of canonical SerRSs, except for a unique intrasubunit disulfide bridge. In a yeast two‐hybrid screen, we identified BEN1, a protein involved in the metabolism of plant brassinosteroid hormones, as a protein interactor of Arabidopsis SerRS. The SerRS:BEN1 complex is one of the first protein complexes of plant aaRSs discovered so far, and is a rare example of an aaRS interacting with an enzyme involved in primary or secondary metabolism. To pinpoint regions responsible for this interaction, we created truncated variants of SerRS and BEN1, and identified that the interaction interface involves the SerRS globular catalytic domain and the N‐terminal extension of BEN1 protein. BEN1 does not have a strong impact on SerRS aminoacylation activity, indicating that the primary function of the complex is not the modification of SerRS canonical activity. Perhaps SerRS performs as yet unknown noncanonical functions mediated by BEN1. These findings indicate that – via SerRS and BEN1 – a link exists between the protein translation and steroid metabolic pathways of the plant cell. Database: Structural data are available in the PDB under the accession number PDB ID 6GIR. Here, we determine the first crystal structure of plant aminoacyl‐tRNA synthetase, seryl‐tRNA synthetase (SerRS) from Arabidopsis thaliana, and show that it interacts with BEN1, a protein involved in the metabolism of plant brassinosteroid hormones. Our findings thus link translation and steroid metabolic pathways in plants. [ABSTRACT FROM AUTHOR]

Published
2019
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347. Expansion and Neofunctionalization of Actinoporin-like Genes in Mediterranean Mussel (Mytilus galloprovincialis)

Author

Neža Koritnik, Marco Gerdol, Gašper Šolinc, Tomaž Švigelj, Simon Caserman, Franci Merzel, Ellie Holden, Justin L P Benesch, Francesco Trenti, Graziano Guella, Alberto Pallavicini, Maria Vittoria Modica, Marjetka Podobnik, Gregor Anderluh, Koritnik, Neža, Gerdol, Marco, Šolinc, Gašper, Švigelj, Tomaž, Caserman, Simon, Merzel, Franci, Holden, Ellie, Benesch, Justin L P, Trenti, Francesco, Guella, Graziano, Pallavicini, Alberto, Modica, Maria Vittoria, Podobnik, Marjetka, and Anderluh, Gregor

Subjects
Mytilus, pore-forming toxins, protein pores, mytiporins, actinoporin-like protein, Mytilus galloprovinciali, mytiporin, actinoporins, Lipids, actinoporin, actinoporin-like proteins, Cnidarian Venoms, Sea Anemones, Mytilus galloprovincialis, Genetics, Animals, pore-forming toxin, pore-forming toxins, actinoporins, actinoporin-like proteins, Mytilus galloprovincialis, mytiporins, protein pores, Ecology, Evolution, Behavior and Systematics
Abstract

Pore-forming toxins are an important component of the venom of many animals. Actinoporins are potent cytolysins that were first detected in the venom of sea anemones; however, they are occasionally found in animals other than cnidarians and are expanded in a few predatory gastropods. Here, we report the presence of 27 unique actinoporin-like genes with monophyletic origin in Mytilus galloprovincialis, which we have termed mytiporins. These mytiporins exhibited a remarkable level of molecular diversity and gene presence–absence variation, which warranted further studies aimed at elucidating their functional role. We structurally and functionally characterized mytiporin-1 and found significant differences from the archetypal actinoporin fragaceatoxin C. Mytiporin-1 showed weaker permeabilization activity, no specificity towards sphingomyelin, and weak activity in model lipid systems with negatively charged lipids. In contrast to fragaceatoxin C, which forms octameric pores, functional mytiporin-1 pores on negatively charged lipid membranes were hexameric. Similar hexameric pores were observed for coluporin-26 from Cumia reticulata and a conoporin from Conus andremenezi. This indicates that also other molluscan actinoporin-like proteins differ from fragaceatoxin C. Although the functional role of mytiporins in the context of molluscan physiology remains to be elucidated, the lineage-specific gene family expansion event that characterizes mytiporins indicates that strong selective forces acted on their molecular diversification. Given the tissue distribution of mytiporins, this process may have broadened the taxonomic breadth of their biological targets, which would have important implications for digestive processes or mucosal immunity.

Published
2022

348. Interfacial Interactions of Pore-Forming Colicins

Author

Ridleya, Helen, Johnson, Christopher L., Lakey, Jeremy H., Back, Nathan, editor, Cohen, Irun R., editor, Lajtha, Abel, editor, Lambris, John D., editor, Paoletti, Rodolfo, editor, Anderluh, Gregor, editor, and Lakey, Jeremy, editor

Published
2010
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349. Cholesterol-Dependent Cytolysins

Author

Gilbert, Robert J. C., Back, Nathan, editor, Cohen, Irun R., editor, Lajtha, Abel, editor, Lambris, John D., editor, Paoletti, Rodolfo, editor, Anderluh, Gregor, editor, and Lakey, Jeremy, editor

Published
2010
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