Sandbox Reserved 1677

This is a default text for your page '. Click above on edit this page' to modify. Be careful with the < and > signs.

You may include any references to papers as in: the use of JSmol in Proteopedia ^[1] or to the article describing Jmol ^[2] to the rescue.

Function of your protein

serve as a metabolic housekeeping enzyme due to their ability to detoxify aldehydes, which are highly reactive compounds generated through cellular. They can also scavenge aldehyde from lipid peroxidation and convert them to a less chemically reactive carboxylic acid. Aldc additionally play an important role in ethanol metabolism via oxidation of acetaldehyde into acetate, metabolism of polyamine, and plant cell wall ester biogenesis. The bacterial pathogen Pseudomonas syringae is the organism that is causing mutation in the host.

In order to determine the substrate preference of AldC, a panel of 23 molecules including short to long chain aliphatic aldehydes was used to screen for enzymatic activity. Spectrophotometric assays of AldC identified aliphatic aldehydes of 5-9 carbon length as substrates. It turns out that the 8 carbon carbon substrate is the preferred aliphatic aldehyde substrate in this case Octanal, which is surrounded by aromatic rings. On the comparison table, data suggest that short 2-4 carbon aldehydes, branched aliphatic aldehydes and larger aromatic aldehydes are poor substrates.It turns out that 8 carbon carbon substrate is the preferred aliphatic aldehyde substrate in this case Octanal, which is surrounded by aromatic rings. To evaluate the nicotinamide cofactor preference for AldC, the activity of the enzyme was tested either with octanal and NADP+ or NAD+, which showed a distinct preference for NAD+. octanal has the highest Kcat value and lowest Km value which increases its efficiancy.

Biological relevance and broader implications

The bacterial pathogen peudomanas syringae is used as a model for understanding microbial evolution, how host and pathogens interact and bacterial virulence mechanisms. P.syringae utilizes several strategies to manipulate hormone signaling in its host plants. These interactions help agriculturalists to detect diseases in plants and how to protect crops from being invaded by these harmful pathogens. In order to suppress host defenses and promote disease development, P. syringae produces a wide variety of virulence factors including auxin Indole-3-acetic acid (IAA) synthesis, whose production is implicated in pathogen virulence. PtoDC3000 synthesizes IAA using an uncharacterized pathway that requires indole-3-acetaldehyde dehydrogenase.

Important amino acids

 amino acids in AldC.  

'== Asn 159, Glu 257, Gly 288, Cys 291

(binding site)

Ile 155, Asn 159, Lys 182, Gly 219, Ile 233, Ser 236, Ala 239, leu 242, Glu 257, leu 258, Gly 259, Cys 291, Glu 391, Phe 393 == Nicotinamide ring is helped in place by van der Waals interactions with Leu 258, Leu 419, and Phe 456 and a hydrogen bond from the backbone carbonyl of Leu 258 to the NH2 grouo of the cofactors. Polar interactions between the adenine ribose ring and side chains of Lys 182 and Glu 185 contribute to NAD+ binding. Interaction of Glu 185 with the 2' hydroxyl group of the adenine ribose determine the cofactor specificity as AldC is not able to accomodate the 2 phosphate of NADP(H) sterically. '

== Octanol Lingand (binding site)

Trp 160 Tyr 163, Trp 450, Phe 456, Tyr 458, met 114, leu 118 =='

Apolar interactions dominate the octanal binding in the hydrophobic substrate binding pocket. A cluster of aromatic residues and two nonpolar residues (Methionine and Leucine) peovides hydophobic environment that accommodates octanal and other aliphatic aldehydes. The substrate binding site forms an aromatic box for adaptable apolar ligand interaction.

,

Structural highlights

has two domains, hydrophobic and hydrophilic regions.

The N-terminus of Aldc contains a central beta sheet surrounded by alpha helices which forms the NAD(H)-binding site.
Additionally, around the C-terminus there is a mixture of alpha and beta domains which the cysteine residue and forms the aldehyde binding site. A small three stranded beta sheet domain facilitates aligomerization. 

There is an interdomain linker region that connects the N and C terminal domains of Aldc.

shows how amino acids interacts with one another inside the protein.

Other important features

The Rossmann fold of the NAD(H) binding domain provides extensive polar and apolar interactions that position the nicotinamide ring of NAD+ in proximity to the C291A point mutation. Its main function is to bind NAD+ cofactor and contribute to substrate binding.