The globins
The globins
are a superfamily of heme-containing globular proteins, involved in binding
and/or transporting oxygen. These proteins all incorporate the globin fold, a
series of eight alpha helical segments. Two prominent members include myoglobin
and hemoglobin. Both of these proteins reversibly bind oxygen via a heme
prosthetic group. They are widely distributed in many organisms.
Structure
Globin
superfamily members share a common three-dimensional fold. This 'globin fold'
typically consists of eight alpha helices, although some proteins have
additional helix extensions at their termini. Since the globin fold contains
only helices, it is classified as an all-alpha protein fold.
The globin
fold is found in its namesake globin families as well as in phycocyanins. The
globin fold was thus the first protein fold discovered.
Helix packaging
The eight
helices of the globin fold core share significant nonlocal structure, unlike
other structural motifs in which amino acids close to each other in primary
sequence are also close in space. The helices pack together at an average angle
of about 50 degrees, significantly steeper than other helical packings such as
the helix bundle. The exact angle of helix packing depends on the sequence of the
protein, because packing is mediated by the sterics and hydrophobic
interactions of the amino acid side chains near the helix interfaces.
Evolution
Globins
evolved from a common ancestor and can be divided into three lineages:
Family M or
F, which has a typical 3/3 fold.
Subfamily
FHb, for flavohaemoglobins. Chimeric.
Subfamily
SDgb, for single-domain globins.
Family S,
again with a 3/3 fold.
Subfamily
GCS, for Globin-coupled sensors. Chimeric.
Subfamily
PGb, for protoglobins. Single-domain.
Subfamily SSDgb,
for sensor single-domain globins.
Family T,
with a 2/2 fold All subfamilies can be chimeric, single-domain, or tandemly
linked. The single gene has also invented an oxygen-carrying
"hemoglobin" multiple times in other groups of animals. Several functionally
different haemoglobins can coexist in the same species.
Sequence
conservation
Although the
fold of the globin superfamily is highly evolutionarily conserved, the
sequences that form the fold can have as low as 16% sequence identity. While
the sequence specificity of the fold is not stringent, the hydrophobic core of
the protein must be maintained and hydrophobic patches on the generally
hydrophilic solvent-exposed surface must be avoided in order for the structure
to remain stable and soluble. The most famous mutation in the globin fold is a
change from glutamate to valine in one chain of the hemoglobin molecule. This
mutation creates a "hydrophobic patch" on the protein surface that
promotes intermolecular aggregation, the molecular event that gives rise to.
Subfamilies
Leghaemoglobin
Myoglobin
Erythrocruorin
Hemoglobin,
beta
Hemoglobin,
alpha
Myoglobin,
trematode type
Globin,
nematode
Globin,
lamprey/hagfish type
Globin,
annelid-type
Haemoglobin,
extracellular
Examples
Human genes
encoding globin proteins include:
CYGB
HBA1, HBA2,
HBB, HBD, HBE1, HBG1, HBG2, HBM, HBQ1, HBZ, MB
The globins
include:
Haemoglobin
Myoglobin
Neuroglobin:
a myoglobin-like haemprotein expressed in vertebrate brain and retina, where it
is involved in neuroprotection from damage due to hypoxia or ischemia.
Neuroglobin belongs to a branch of the globin family that diverged early in
evolution.
Cytoglobin:
an oxygen sensor expressed in multiple tissues. Related to neuroglobin.
Erythrocruorin:
highly cooperative extracellular respiratory proteins found in annelids and
arthropods that are assembled from as many as 180 subunit into hexagonal
bilayers.
Leghaemoglobin
: occurs in the root nodules of leguminous plants, where it facilitates the
diffusion of oxygen to symbiotic bacteriods in order to promote nitrogen
fixation.
Non-symbiotic
haemoglobin : occurs in non-leguminous plants, and can be over-expressed in
stressed plants.
Flavohaemoglobins
: chimeric, with an N-terminal globin domain and a C-terminal ferredoxin reductase-like
NAD/FAD-binding domain. FHb provides protection against nitric oxide via its
C-terminal domain, which transfers electrons to haem in the globin.
Globin E: a
globin responsible for storing and delivering oxygen to the retina in birds
Globin-coupled
sensors: chimeric, with an N-terminal myoglobin-like domain and a C-terminal
domain that resembles the cytoplasmic signalling domain of bacterial
chemoreceptors. They bind oxygen, and act to initiate an aerotactic response or
regulate gene expression.
Protoglobin:
a single domain globin found in archaea that is related to the N-terminal
domain of globin-coupled sensors.
Truncated
2/2 globin: lack the first helix, giving them a 2-over-2 instead of the
canonical 3-over-3 alpha-helical sandwich fold. Can be divided into three main
groups based on structural features.
HbN : a
truncated haemoglobin-like protein that binds oxygen cooperatively with a very
high affinity and a slow dissociation rate, which may exclude it from oxygen
transport. It appears to be involved in bacterial nitric oxide detoxification
and in nitrosative stress.
Cyanoglobin
: a truncated haemoprotein found in cyanobacteria that has high oxygen
affinity, and which appears to serve as part of a terminal oxidase, rather than
as a respiratory pigment.
HbO : a
truncated haemoglobin-like protein with a lower oxygen affinity than HbN. HbO
associates with the bacterial cell membrane, where it significantly increases
oxygen uptake over membranes lacking this protein. HbO appears to interact with
a terminal oxidase, and could participate in an oxygen/electron-transfer
process that facilitates oxygen transfer during aerobic metabolism.
Glb3: a
nuclear-encoded truncated haemoglobin from plants that appears more closely
related to HbO than HbN. Glb3 from Arabidopsis thaliana exhibits an unusual
concentration-independent binding of oxygen and carbon dioxide.
The globin
fold
The globin
fold also includes some non-haem proteins. Some of them are the
phycobiliproteins, the N-terminal domain of two-component regulatory system
histidine kinase, RsbR, and RsbN.
See also
C-rich
stability element
Globular
protein
Hemoglobin
Heme
Myoglobin
Phytoglobin
References
Bibliography:
Wikipedia
@baygross