Gas Gangrene (Myonecrosis) Research 
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This is an RSS file. You can use it to subscribe to this data in your favourite RSS reader or to display this data on your own website or blog.The location of protein oxidation in dystrophic skeletal muscle from the mdx mouse model of Duchenne muscular dystrophy
This study used the dystrophic mdx mouse model for DMD to visualise the precise location of different oxidative modifications to proteins in dystrophic muscles, including both reversible (protein thiol oxidation and s-nitrosylation) and irreversible (carbonylation and dityrosine formation) oxidation at various stages of dystrophic muscle necrosis and regeneration. High levels of protein oxidation were observed in mdx myofibres undergoing degeneration and immune cell infiltration (myonecrosis). Since irreversible protein oxidation, especially dityrosine formation, was only colocalised to areas of myonecrosis, we suggest tha...
Source: Acta Histochemica - October 21, 2022 Category: Biochemistry Authors: Tomohito Iwasaki Jessica R Terrill Kei Kawarai Yusei Miyata Takayoshi Tagami Naoyuki Maeda Yasuhiro Hasegawa Takafumi Watanabe Miranda D Grounds Peter G Arthur Source Type: research
The location of protein oxidation in dystrophic skeletal muscle from the mdx mouse model of Duchenne muscular dystrophy
This study used the dystrophic mdx mouse model for DMD to visualise the precise location of different oxidative modifications to proteins in dystrophic muscles, including both reversible (protein thiol oxidation and s-nitrosylation) and irreversible (carbonylation and dityrosine formation) oxidation at various stages of dystrophic muscle necrosis and regeneration. High levels of protein oxidation were observed in mdx myofibres undergoing degeneration and immune cell infiltration (myonecrosis). Since irreversible protein oxidation, especially dityrosine formation, was only colocalised to areas of myonecrosis, we suggest tha...
Source: Acta Histochemica - October 21, 2022 Category: Biochemistry Authors: Tomohito Iwasaki Jessica R Terrill Kei Kawarai Yusei Miyata Takayoshi Tagami Naoyuki Maeda Yasuhiro Hasegawa Takafumi Watanabe Miranda D Grounds Peter G Arthur Source Type: research
The location of protein oxidation in dystrophic skeletal muscle from the mdx mouse model of Duchenne muscular dystrophy
This study used the dystrophic mdx mouse model for DMD to visualise the precise location of different oxidative modifications to proteins in dystrophic muscles, including both reversible (protein thiol oxidation and s-nitrosylation) and irreversible (carbonylation and dityrosine formation) oxidation at various stages of dystrophic muscle necrosis and regeneration. High levels of protein oxidation were observed in mdx myofibres undergoing degeneration and immune cell infiltration (myonecrosis). Since irreversible protein oxidation, especially dityrosine formation, was only colocalised to areas of myonecrosis, we suggest tha...
Source: Acta Histochemica - October 21, 2022 Category: Biochemistry Authors: Tomohito Iwasaki Jessica R Terrill Kei Kawarai Yusei Miyata Takayoshi Tagami Naoyuki Maeda Yasuhiro Hasegawa Takafumi Watanabe Miranda D Grounds Peter G Arthur Source Type: research
The location of protein oxidation in dystrophic skeletal muscle from the mdx mouse model of Duchenne muscular dystrophy
This study used the dystrophic mdx mouse model for DMD to visualise the precise location of different oxidative modifications to proteins in dystrophic muscles, including both reversible (protein thiol oxidation and s-nitrosylation) and irreversible (carbonylation and dityrosine formation) oxidation at various stages of dystrophic muscle necrosis and regeneration. High levels of protein oxidation were observed in mdx myofibres undergoing degeneration and immune cell infiltration (myonecrosis). Since irreversible protein oxidation, especially dityrosine formation, was only colocalised to areas of myonecrosis, we suggest tha...
Source: Acta Histochemica - October 21, 2022 Category: Biochemistry Authors: Tomohito Iwasaki Jessica R Terrill Kei Kawarai Yusei Miyata Takayoshi Tagami Naoyuki Maeda Yasuhiro Hasegawa Takafumi Watanabe Miranda D Grounds Peter G Arthur Source Type: research
The location of protein oxidation in dystrophic skeletal muscle from the mdx mouse model of Duchenne muscular dystrophy
This study used the dystrophic mdx mouse model for DMD to visualise the precise location of different oxidative modifications to proteins in dystrophic muscles, including both reversible (protein thiol oxidation and s-nitrosylation) and irreversible (carbonylation and dityrosine formation) oxidation at various stages of dystrophic muscle necrosis and regeneration. High levels of protein oxidation were observed in mdx myofibres undergoing degeneration and immune cell infiltration (myonecrosis). Since irreversible protein oxidation, especially dityrosine formation, was only colocalised to areas of myonecrosis, we suggest tha...
Source: Acta Histochemica - October 21, 2022 Category: Biochemistry Authors: Tomohito Iwasaki Jessica R Terrill Kei Kawarai Yusei Miyata Takayoshi Tagami Naoyuki Maeda Yasuhiro Hasegawa Takafumi Watanabe Miranda D Grounds Peter G Arthur Source Type: research
The location of protein oxidation in dystrophic skeletal muscle from the mdx mouse model of Duchenne muscular dystrophy
This study used the dystrophic mdx mouse model for DMD to visualise the precise location of different oxidative modifications to proteins in dystrophic muscles, including both reversible (protein thiol oxidation and s-nitrosylation) and irreversible (carbonylation and dityrosine formation) oxidation at various stages of dystrophic muscle necrosis and regeneration. High levels of protein oxidation were observed in mdx myofibres undergoing degeneration and immune cell infiltration (myonecrosis). Since irreversible protein oxidation, especially dityrosine formation, was only colocalised to areas of myonecrosis, we suggest tha...
Source: Acta Histochemica - October 21, 2022 Category: Biochemistry Authors: Tomohito Iwasaki Jessica R Terrill Kei Kawarai Yusei Miyata Takayoshi Tagami Naoyuki Maeda Yasuhiro Hasegawa Takafumi Watanabe Miranda D Grounds Peter G Arthur Source Type: research
The location of protein oxidation in dystrophic skeletal muscle from the mdx mouse model of Duchenne muscular dystrophy
This study used the dystrophic mdx mouse model for DMD to visualise the precise location of different oxidative modifications to proteins in dystrophic muscles, including both reversible (protein thiol oxidation and s-nitrosylation) and irreversible (carbonylation and dityrosine formation) oxidation at various stages of dystrophic muscle necrosis and regeneration. High levels of protein oxidation were observed in mdx myofibres undergoing degeneration and immune cell infiltration (myonecrosis). Since irreversible protein oxidation, especially dityrosine formation, was only colocalised to areas of myonecrosis, we suggest tha...
Source: Acta Histochemica - October 21, 2022 Category: Biochemistry Authors: Tomohito Iwasaki Jessica R Terrill Kei Kawarai Yusei Miyata Takayoshi Tagami Naoyuki Maeda Yasuhiro Hasegawa Takafumi Watanabe Miranda D Grounds Peter G Arthur Source Type: research
The location of protein oxidation in dystrophic skeletal muscle from the mdx mouse model of Duchenne muscular dystrophy
This study used the dystrophic mdx mouse model for DMD to visualise the precise location of different oxidative modifications to proteins in dystrophic muscles, including both reversible (protein thiol oxidation and s-nitrosylation) and irreversible (carbonylation and dityrosine formation) oxidation at various stages of dystrophic muscle necrosis and regeneration. High levels of protein oxidation were observed in mdx myofibres undergoing degeneration and immune cell infiltration (myonecrosis). Since irreversible protein oxidation, especially dityrosine formation, was only colocalised to areas of myonecrosis, we suggest tha...
Source: Acta Histochemica - October 21, 2022 Category: Biochemistry Authors: Tomohito Iwasaki Jessica R Terrill Kei Kawarai Yusei Miyata Takayoshi Tagami Naoyuki Maeda Yasuhiro Hasegawa Takafumi Watanabe Miranda D Grounds Peter G Arthur Source Type: research
The location of protein oxidation in dystrophic skeletal muscle from the mdx mouse model of Duchenne muscular dystrophy
This study used the dystrophic mdx mouse model for DMD to visualise the precise location of different oxidative modifications to proteins in dystrophic muscles, including both reversible (protein thiol oxidation and s-nitrosylation) and irreversible (carbonylation and dityrosine formation) oxidation at various stages of dystrophic muscle necrosis and regeneration. High levels of protein oxidation were observed in mdx myofibres undergoing degeneration and immune cell infiltration (myonecrosis). Since irreversible protein oxidation, especially dityrosine formation, was only colocalised to areas of myonecrosis, we suggest tha...
Source: Acta Histochemica - October 21, 2022 Category: Biochemistry Authors: Tomohito Iwasaki Jessica R Terrill Kei Kawarai Yusei Miyata Takayoshi Tagami Naoyuki Maeda Yasuhiro Hasegawa Takafumi Watanabe Miranda D Grounds Peter G Arthur Source Type: research
The location of protein oxidation in dystrophic skeletal muscle from the mdx mouse model of Duchenne muscular dystrophy
This study used the dystrophic mdx mouse model for DMD to visualise the precise location of different oxidative modifications to proteins in dystrophic muscles, including both reversible (protein thiol oxidation and s-nitrosylation) and irreversible (carbonylation and dityrosine formation) oxidation at various stages of dystrophic muscle necrosis and regeneration. High levels of protein oxidation were observed in mdx myofibres undergoing degeneration and immune cell infiltration (myonecrosis). Since irreversible protein oxidation, especially dityrosine formation, was only colocalised to areas of myonecrosis, we suggest tha...
Source: Acta Histochemica - October 21, 2022 Category: Biochemistry Authors: Tomohito Iwasaki Jessica R Terrill Kei Kawarai Yusei Miyata Takayoshi Tagami Naoyuki Maeda Yasuhiro Hasegawa Takafumi Watanabe Miranda D Grounds Peter G Arthur Source Type: research
The location of protein oxidation in dystrophic skeletal muscle from the mdx mouse model of Duchenne muscular dystrophy
This study used the dystrophic mdx mouse model for DMD to visualise the precise location of different oxidative modifications to proteins in dystrophic muscles, including both reversible (protein thiol oxidation and s-nitrosylation) and irreversible (carbonylation and dityrosine formation) oxidation at various stages of dystrophic muscle necrosis and regeneration. High levels of protein oxidation were observed in mdx myofibres undergoing degeneration and immune cell infiltration (myonecrosis). Since irreversible protein oxidation, especially dityrosine formation, was only colocalised to areas of myonecrosis, we suggest tha...
Source: Acta Histochemica - October 21, 2022 Category: Biochemistry Authors: Tomohito Iwasaki Jessica R Terrill Kei Kawarai Yusei Miyata Takayoshi Tagami Naoyuki Maeda Yasuhiro Hasegawa Takafumi Watanabe Miranda D Grounds Peter G Arthur Source Type: research
The location of protein oxidation in dystrophic skeletal muscle from the mdx mouse model of Duchenne muscular dystrophy
This study used the dystrophic mdx mouse model for DMD to visualise the precise location of different oxidative modifications to proteins in dystrophic muscles, including both reversible (protein thiol oxidation and s-nitrosylation) and irreversible (carbonylation and dityrosine formation) oxidation at various stages of dystrophic muscle necrosis and regeneration. High levels of protein oxidation were observed in mdx myofibres undergoing degeneration and immune cell infiltration (myonecrosis). Since irreversible protein oxidation, especially dityrosine formation, was only colocalised to areas of myonecrosis, we suggest tha...
Source: Acta Histochemica - October 21, 2022 Category: Biochemistry Authors: Tomohito Iwasaki Jessica R Terrill Kei Kawarai Yusei Miyata Takayoshi Tagami Naoyuki Maeda Yasuhiro Hasegawa Takafumi Watanabe Miranda D Grounds Peter G Arthur Source Type: research
An Indigenous, Field-Deployable, Lateral Flow Immunochromatographic Assay Rapidly Detects Infectious Myonecrosis in Shrimp, Litopenaeus vannamei
Mar Biotechnol (NY). 2022 Oct 15. doi: 10.1007/s10126-022-10172-6. Online ahead of print.ABSTRACTShrimp farming is an important socioeconomic activity worldwide. Infectious myonecrosis virus (IMNV) is an important shrimp virus responsible for significant mortality (up to 70%) in Litopenaeus vannamei. We produced recombinant capsid protein (r-IMNV31) and obtained a highly specific antibody, anti-r-IMNV31, which was used in WOAH-approved ELISA and Western blot to detect IMNV. Further, anti-r-IMNV31 was employed in an indigenously developed lateral flow immunoassay (LFA) with gold nanoparticles as a visual label. Using LFA, I...
Source: Marine Biotechnology - October 15, 2022 Category: Biotechnology Authors: S Santhosh Kumar Snehal Jamalpure A Nafeez Ahmed G Taju S Vimal S Abdul Majeed S Suryakodi Syed Rahamathulla Kishore M Paknikar Jyutika M Rajwade A S Sahul Hameed Source Type: research
An Indigenous, Field-Deployable, Lateral Flow Immunochromatographic Assay Rapidly Detects Infectious Myonecrosis in Shrimp, Litopenaeus vannamei
Mar Biotechnol (NY). 2022 Oct 15. doi: 10.1007/s10126-022-10172-6. Online ahead of print.ABSTRACTShrimp farming is an important socioeconomic activity worldwide. Infectious myonecrosis virus (IMNV) is an important shrimp virus responsible for significant mortality (up to 70%) in Litopenaeus vannamei. We produced recombinant capsid protein (r-IMNV31) and obtained a highly specific antibody, anti-r-IMNV31, which was used in WOAH-approved ELISA and Western blot to detect IMNV. Further, anti-r-IMNV31 was employed in an indigenously developed lateral flow immunoassay (LFA) with gold nanoparticles as a visual label. Using LFA, I...
Source: Marine Biotechnology - October 15, 2022 Category: Biotechnology Authors: S Santhosh Kumar Snehal Jamalpure A Nafeez Ahmed G Taju S Vimal S Abdul Majeed S Suryakodi Syed Rahamathulla Kishore M Paknikar Jyutika M Rajwade A S Sahul Hameed Source Type: research
An Indigenous, Field-Deployable, Lateral Flow Immunochromatographic Assay Rapidly Detects Infectious Myonecrosis in Shrimp, Litopenaeus vannamei
Mar Biotechnol (NY). 2022 Oct 15. doi: 10.1007/s10126-022-10172-6. Online ahead of print.ABSTRACTShrimp farming is an important socioeconomic activity worldwide. Infectious myonecrosis virus (IMNV) is an important shrimp virus responsible for significant mortality (up to 70%) in Litopenaeus vannamei. We produced recombinant capsid protein (r-IMNV31) and obtained a highly specific antibody, anti-r-IMNV31, which was used in WOAH-approved ELISA and Western blot to detect IMNV. Further, anti-r-IMNV31 was employed in an indigenously developed lateral flow immunoassay (LFA) with gold nanoparticles as a visual label. Using LFA, I...
Source: Marine Biotechnology - October 15, 2022 Category: Biotechnology Authors: S Santhosh Kumar Snehal Jamalpure A Nafeez Ahmed G Taju S Vimal S Abdul Majeed S Suryakodi Syed Rahamathulla Kishore M Paknikar Jyutika M Rajwade A S Sahul Hameed Source Type: research
