| PathWhiz ID | Pathway | Meta Data |
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PW499463
View Pathway
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Allantoin Degradation (Anaerobic)Barnesiella intestinihominis YIT 11860
Allantoin can be degraded in anaerobic conditions. The first step involves allantoin being degraded by an allantoinase resulting in an allantoate. This compound in turn is metabolized by reacting with water and 2 hydrogen ions through an allantoate amidohydrolase resulting in the release of a carbon dioxide, ammonium and an S-ureidoglycine. The latter compund is further degrades through a S-ureidoglycine aminohydrolase resulting in the release of an ammonium and an S-ureidoglycolate.
S-ureidoglycolate can be metabolized into oxalurate by two different reactions. The first reactions involves a NAD driven ureidoglycolate dehydrogenase resulting in the release of a hydrogen ion , an NADH and a oxalurate. On the other hand S-ureidoglycolate can react with NADP resulting in the release of an NADPH, a hydroge ion and an oxalurate.
It is hypothesized that oxalurate can interact with a phosphate and release a a carbamoyl phosphate and an oxamate.
The carbamoyl phosphate can be further degraded by reacting with an ADP, and a hydrogen ion through a carbamate kinase resulting in the release of an ammonium , ATP and carbon dioxide
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Creator: Julia Wakoli Created On: February 04, 2025 at 19:51 Last Updated: February 04, 2025 at 19:51 |
PW499374
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Allantoin Degradation (Anaerobic)Bacteroides sp. D22
Allantoin can be degraded in anaerobic conditions. The first step involves allantoin being degraded by an allantoinase resulting in an allantoate. This compound in turn is metabolized by reacting with water and 2 hydrogen ions through an allantoate amidohydrolase resulting in the release of a carbon dioxide, ammonium and an S-ureidoglycine. The latter compund is further degrades through a S-ureidoglycine aminohydrolase resulting in the release of an ammonium and an S-ureidoglycolate.
S-ureidoglycolate can be metabolized into oxalurate by two different reactions. The first reactions involves a NAD driven ureidoglycolate dehydrogenase resulting in the release of a hydrogen ion , an NADH and a oxalurate. On the other hand S-ureidoglycolate can react with NADP resulting in the release of an NADPH, a hydroge ion and an oxalurate.
It is hypothesized that oxalurate can interact with a phosphate and release a a carbamoyl phosphate and an oxamate.
The carbamoyl phosphate can be further degraded by reacting with an ADP, and a hydrogen ion through a carbamate kinase resulting in the release of an ammonium , ATP and carbon dioxide
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Creator: Julia Wakoli Created On: February 04, 2025 at 19:15 Last Updated: February 04, 2025 at 19:15 |
PW686151
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Allantoin Degradation (Anaerobic)Eikenella corrodens ATCC 23834
Allantoin can be degraded in anaerobic conditions. The first step involves allantoin being degraded by an allantoinase resulting in an allantoate. This compound in turn is metabolized by reacting with water and 2 hydrogen ions through an allantoate amidohydrolase resulting in the release of a carbon dioxide, ammonium and an S-ureidoglycine. The latter compund is further degrades through a S-ureidoglycine aminohydrolase resulting in the release of an ammonium and an S-ureidoglycolate.
S-ureidoglycolate can be metabolized into oxalurate by two different reactions. The first reactions involves a NAD driven ureidoglycolate dehydrogenase resulting in the release of a hydrogen ion , an NADH and a oxalurate. On the other hand S-ureidoglycolate can react with NADP resulting in the release of an NADPH, a hydroge ion and an oxalurate.
It is hypothesized that oxalurate can interact with a phosphate and release a a carbamoyl phosphate and an oxamate.
The carbamoyl phosphate can be further degraded by reacting with an ADP, and a hydrogen ion through a carbamate kinase resulting in the release of an ammonium , ATP and carbon dioxide
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Creator: Julia Wakoli Created On: February 05, 2025 at 06:01 Last Updated: February 05, 2025 at 06:01 |
PW686177
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Allantoin Degradation (Anaerobic)Helicobacter canadensis MIT 98-5491
Allantoin can be degraded in anaerobic conditions. The first step involves allantoin being degraded by an allantoinase resulting in an allantoate. This compound in turn is metabolized by reacting with water and 2 hydrogen ions through an allantoate amidohydrolase resulting in the release of a carbon dioxide, ammonium and an S-ureidoglycine. The latter compund is further degrades through a S-ureidoglycine aminohydrolase resulting in the release of an ammonium and an S-ureidoglycolate.
S-ureidoglycolate can be metabolized into oxalurate by two different reactions. The first reactions involves a NAD driven ureidoglycolate dehydrogenase resulting in the release of a hydrogen ion , an NADH and a oxalurate. On the other hand S-ureidoglycolate can react with NADP resulting in the release of an NADPH, a hydroge ion and an oxalurate.
It is hypothesized that oxalurate can interact with a phosphate and release a a carbamoyl phosphate and an oxamate.
The carbamoyl phosphate can be further degraded by reacting with an ADP, and a hydrogen ion through a carbamate kinase resulting in the release of an ammonium , ATP and carbon dioxide
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Creator: Julia Wakoli Created On: February 05, 2025 at 09:17 Last Updated: February 05, 2025 at 09:17 |
PW498876
View Pathway
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Allantoin Degradation (Anaerobic)Bacteroides graminisolvens DSM 19988 = JCM 15093
Allantoin can be degraded in anaerobic conditions. The first step involves allantoin being degraded by an allantoinase resulting in an allantoate. This compound in turn is metabolized by reacting with water and 2 hydrogen ions through an allantoate amidohydrolase resulting in the release of a carbon dioxide, ammonium and an S-ureidoglycine. The latter compund is further degrades through a S-ureidoglycine aminohydrolase resulting in the release of an ammonium and an S-ureidoglycolate.
S-ureidoglycolate can be metabolized into oxalurate by two different reactions. The first reactions involves a NAD driven ureidoglycolate dehydrogenase resulting in the release of a hydrogen ion , an NADH and a oxalurate. On the other hand S-ureidoglycolate can react with NADP resulting in the release of an NADPH, a hydroge ion and an oxalurate.
It is hypothesized that oxalurate can interact with a phosphate and release a a carbamoyl phosphate and an oxamate.
The carbamoyl phosphate can be further degraded by reacting with an ADP, and a hydrogen ion through a carbamate kinase resulting in the release of an ammonium , ATP and carbon dioxide
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Creator: Julia Wakoli Created On: February 04, 2025 at 16:01 Last Updated: February 04, 2025 at 16:01 |
PW500183
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Allantoin Degradation (Anaerobic)Tannerella forsythia
Allantoin can be degraded in anaerobic conditions. The first step involves allantoin being degraded by an allantoinase resulting in an allantoate. This compound in turn is metabolized by reacting with water and 2 hydrogen ions through an allantoate amidohydrolase resulting in the release of a carbon dioxide, ammonium and an S-ureidoglycine. The latter compund is further degrades through a S-ureidoglycine aminohydrolase resulting in the release of an ammonium and an S-ureidoglycolate.
S-ureidoglycolate can be metabolized into oxalurate by two different reactions. The first reactions involves a NAD driven ureidoglycolate dehydrogenase resulting in the release of a hydrogen ion , an NADH and a oxalurate. On the other hand S-ureidoglycolate can react with NADP resulting in the release of an NADPH, a hydroge ion and an oxalurate.
It is hypothesized that oxalurate can interact with a phosphate and release a a carbamoyl phosphate and an oxamate.
The carbamoyl phosphate can be further degraded by reacting with an ADP, and a hydrogen ion through a carbamate kinase resulting in the release of an ammonium , ATP and carbon dioxide
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Creator: Julia Wakoli Created On: February 05, 2025 at 01:07 Last Updated: February 05, 2025 at 01:07 |
PW496053
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Allantoin Degradation (Anaerobic)Bradyrhizobium elkanii USDA 76
Allantoin can be degraded in anaerobic conditions. The first step involves allantoin being degraded by an allantoinase resulting in an allantoate. This compound in turn is metabolized by reacting with water and 2 hydrogen ions through an allantoate amidohydrolase resulting in the release of a carbon dioxide, ammonium and an S-ureidoglycine. The latter compund is further degrades through a S-ureidoglycine aminohydrolase resulting in the release of an ammonium and an S-ureidoglycolate.
S-ureidoglycolate can be metabolized into oxalurate by two different reactions. The first reactions involves a NAD driven ureidoglycolate dehydrogenase resulting in the release of a hydrogen ion , an NADH and a oxalurate. On the other hand S-ureidoglycolate can react with NADP resulting in the release of an NADPH, a hydroge ion and an oxalurate.
It is hypothesized that oxalurate can interact with a phosphate and release a a carbamoyl phosphate and an oxamate.
The carbamoyl phosphate can be further degraded by reacting with an ADP, and a hydrogen ion through a carbamate kinase resulting in the release of an ammonium , ATP and carbon dioxide
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Creator: Julia Wakoli Created On: February 03, 2025 at 17:51 Last Updated: February 03, 2025 at 17:51 |
PW498958
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Allantoin Degradation (Anaerobic)Bacteroides ovatus SD CMC 3f
Allantoin can be degraded in anaerobic conditions. The first step involves allantoin being degraded by an allantoinase resulting in an allantoate. This compound in turn is metabolized by reacting with water and 2 hydrogen ions through an allantoate amidohydrolase resulting in the release of a carbon dioxide, ammonium and an S-ureidoglycine. The latter compund is further degrades through a S-ureidoglycine aminohydrolase resulting in the release of an ammonium and an S-ureidoglycolate.
S-ureidoglycolate can be metabolized into oxalurate by two different reactions. The first reactions involves a NAD driven ureidoglycolate dehydrogenase resulting in the release of a hydrogen ion , an NADH and a oxalurate. On the other hand S-ureidoglycolate can react with NADP resulting in the release of an NADPH, a hydroge ion and an oxalurate.
It is hypothesized that oxalurate can interact with a phosphate and release a a carbamoyl phosphate and an oxamate.
The carbamoyl phosphate can be further degraded by reacting with an ADP, and a hydrogen ion through a carbamate kinase resulting in the release of an ammonium , ATP and carbon dioxide
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Creator: Julia Wakoli Created On: February 04, 2025 at 16:32 Last Updated: February 04, 2025 at 16:32 |
PW686121
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Allantoin Degradation (Anaerobic)Bacteroides sp. 4_3_47FAA
Allantoin can be degraded in anaerobic conditions. The first step involves allantoin being degraded by an allantoinase resulting in an allantoate. This compound in turn is metabolized by reacting with water and 2 hydrogen ions through an allantoate amidohydrolase resulting in the release of a carbon dioxide, ammonium and an S-ureidoglycine. The latter compund is further degrades through a S-ureidoglycine aminohydrolase resulting in the release of an ammonium and an S-ureidoglycolate.
S-ureidoglycolate can be metabolized into oxalurate by two different reactions. The first reactions involves a NAD driven ureidoglycolate dehydrogenase resulting in the release of a hydrogen ion , an NADH and a oxalurate. On the other hand S-ureidoglycolate can react with NADP resulting in the release of an NADPH, a hydroge ion and an oxalurate.
It is hypothesized that oxalurate can interact with a phosphate and release a a carbamoyl phosphate and an oxamate.
The carbamoyl phosphate can be further degraded by reacting with an ADP, and a hydrogen ion through a carbamate kinase resulting in the release of an ammonium , ATP and carbon dioxide
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Creator: Julia Wakoli Created On: February 04, 2025 at 18:43 Last Updated: February 04, 2025 at 18:43 |
PW686141
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Allantoin Degradation (Anaerobic)Prevotella nigrescens ATCC 33563
Allantoin can be degraded in anaerobic conditions. The first step involves allantoin being degraded by an allantoinase resulting in an allantoate. This compound in turn is metabolized by reacting with water and 2 hydrogen ions through an allantoate amidohydrolase resulting in the release of a carbon dioxide, ammonium and an S-ureidoglycine. The latter compund is further degrades through a S-ureidoglycine aminohydrolase resulting in the release of an ammonium and an S-ureidoglycolate.
S-ureidoglycolate can be metabolized into oxalurate by two different reactions. The first reactions involves a NAD driven ureidoglycolate dehydrogenase resulting in the release of a hydrogen ion , an NADH and a oxalurate. On the other hand S-ureidoglycolate can react with NADP resulting in the release of an NADPH, a hydroge ion and an oxalurate.
It is hypothesized that oxalurate can interact with a phosphate and release a a carbamoyl phosphate and an oxamate.
The carbamoyl phosphate can be further degraded by reacting with an ADP, and a hydrogen ion through a carbamate kinase resulting in the release of an ammonium , ATP and carbon dioxide
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Creator: Julia Wakoli Created On: February 04, 2025 at 23:01 Last Updated: February 04, 2025 at 23:01 |