The domain within your query sequence starts at position 9 and ends at position 207; the E-value for the Pex19 domain shown below is 5.7e-58.

GVGVEDDRELEELLESSDASSQQEFTSCLKETLSGLAKNATELQNSGMSEEELMKAMEGL
GMDEGDGEASILPIMQSIMQNLLSKDVLYPSLKEITEKYPEWLQSHQDSTPPEQFEKYQQ
QHSVMVKICEQFEAETPTDSEATQRARFEAMLDLMQQLQALGHPPKELAGEMPPGLNFDL
DALNLSGPPGANGEQCLIM

Pex19

Pex19
PFAM accession number:PF04614
Interpro abstract (IPR006708):

Peroxisome(s) form an intracellular compartment, bounded by a typical lipid bilayer membrane. Peroxisome functions are often specialised by organism and cell type; two widely distributed and well-conserved functions are H2O2-based respiration and fatty acid beta-oxidation. Other functions include ether lipid (plasmalogen) synthesis and cholesterol synthesis in animals, the glyoxylate cycle in germinating seeds ("glyoxysomes"), photorespiration in leaves, glycolysis in trypanosomes ("glycosomes"), and methanol and/or amine oxidation and assimilation in some yeasts.

PEX genes encode the machinery ("peroxins") required to assemble the peroxisome. Membrane assembly and maintenance requires three of these (peroxins 3, 16, and 19) and may occur without the import of the matrix (lumen) enzymes. Matrix protein import follows a branched pathway of soluble recycling receptors, with one branch for each class of peroxisome targeting sequence (two are well characterised), and a common trunk for all. At least one of these receptors, Pex5p, enters and exits peroxisomes as it functions. Proliferation of the organelle is regulated by Pex11p. Peroxisome biogenesis is remarkably conserved among eukaryotes. A group of fatal, inherited neuropathologies are recognised as peroxisome biogenesis diseases.

GO component:peroxisome (GO:0005777)

This is a PFAM domain. For full annotation and more information, please see the PFAM entry Pex19