Application | Comment | Organism |
---|---|---|
additional information | FDL may have a role in N-glycan processing in addition to its apparent role in cuticular chitin turnover during insect development | Tribolium castaneum |
additional information | NAG1 may have a role in N-glycan processing in addition to its apparent role in cuticular chitin turnover during insect development | Tribolium castaneum |
additional information | NAG2 may have a role in N-glycan processing in addition to its apparent role in cuticular chitin turnover during insect development | Tribolium castaneum |
additional information | NAG3 may have a role in N-glycan processing in addition to its apparent role in cuticular chitin turnover during insect development | Tribolium castaneum |
Cloned (Comment) | Organism |
---|---|
full-length cDNA cloned into the pCRs4-TOPOs vector | Tribolium castaneum |
Inhibitors | Comment | Organism | Structure |
---|---|---|---|
dsRNA | mediates transcript depletion. Knockdown of transcripts results in phenotypes similar to those of NAG1 dsRNA-treated insects, but the effects are somewhat variable and less severe; mediates transcript depletion. Knockdown of transcripts results in phenotypes similar to those of NAG1 dsRNA-treated insects, but the effects are somewhat variable and less severe; mediates transcript depletion. Knockdown of transcripts results in phenotypes similar to those of NAG1 dsRNA-treated insects, but the effects are somewhat variable and less severe; mediates transcript depletion, NAG1 dsRNA is most effective in interrupting all three types of molts: larval-larval, larval-pupal, and pupal-adult, treated insects die after failing to completely shed their old cuticles | Tribolium castaneum |
Molecular Weight [Da] | Molecular Weight Maximum [Da] | Comment | Organism |
---|---|---|---|
67300 | - |
sequence analysis | Tribolium castaneum |
67400 | - |
sequence analysis | Tribolium castaneum |
67500 | - |
sequence analysis | Tribolium castaneum |
72600 | - |
sequence analysis | Tribolium castaneum |
Organism | UniProt | Comment | Textmining |
---|---|---|---|
Tribolium castaneum | A5YVX3 | GA-1 strain | - |
Tribolium castaneum | A5YVX4 | GA-1 strain | - |
Tribolium castaneum | A5YVX5 | GA-1 strain | - |
Tribolium castaneum | A5YVX6 | GA-1 strain | - |
Tribolium castaneum GA-1 | A5YVX3 | GA-1 strain | - |
Tribolium castaneum GA-1 | A5YVX4 | GA-1 strain | - |
Tribolium castaneum GA-1 | A5YVX5 | GA-1 strain | - |
Tribolium castaneum GA-1 | A5YVX6 | GA-1 strain | - |
Source Tissue | Comment | Organism | Textmining |
---|---|---|---|
additional information | FDL is expressed in midgut, but its expression in the carcass is approximately triple that in the midgut | Tribolium castaneum | - |
additional information | NAG1 transcripts are the most abundant, particularly at the late pupal stage. Transcript levels of NAG1 are comparable in both the midgut and carcass | Tribolium castaneum | - |
additional information | NAG2 is expressed at far higher levels in the midgut than in the carcass | Tribolium castaneum | - |
additional information | NAG3 transcripts are the least abundant, even at their peak levels in the late larval stages. NAG3 is expressed at far higher levels in the midgut than in the carcass | Tribolium castaneum | - |
Synonyms | Comment | Organism |
---|---|---|
FDL | - |
Tribolium castaneum |
N-acetylglucosaminidase | - |
Tribolium castaneum |
NAG1 | - |
Tribolium castaneum |
NAG2 | - |
Tribolium castaneum |
Nag3 | - |
Tribolium castaneum |
Organism | Comment | pI Value Maximum | pI Value |
---|---|---|---|
Tribolium castaneum | - |
- |
5.2 |
Tribolium castaneum | - |
- |
5.5 |
Tribolium castaneum | - |
- |
5.6 |
Tribolium castaneum | - |
- |
6.6 |