Major intrinsic proteins comprise a large superfamily of transmembrane protein channels that are grouped together on the basis of homology. The MIP superfamily includes three subfamilies: aquaporins, aquaglyceroporins and S-aquaporins.
# The
aquaporin
Aquaporins, also called water channels, are channel proteins from a larger family of major intrinsic proteins that form pores in the membrane of biological cells, mainly facilitating transport of water between cells. The cell membranes of a ...
s (AQPs) are water selective.
# The
aquaglyceroporins are permeable to water, but also to other small uncharged molecules such as glycerol.
# The third subfamily, with little conserved amino acid sequences around the NPA boxes, include '
superaquaporins' (S-aquaporins).
The phylogeny of insect MIP family channels has been published.
Families
There are two families that belong to th
MIP Superfamily
1.A.8- The Major Intrinsic Protein (MIP) Family
1.A.16-
The Formate-Nitrite Transporter (FNT) Family
The Major Intrinsic Protein Family (TC# 1.A.8)
The MIP family is large and diverse, possessing thousands of members that form transmembrane channels. These channel proteins function in transporting water, small
carbohydrate
In organic chemistry, a carbohydrate () is a biomolecule consisting of carbon (C), hydrogen (H) and oxygen (O) atoms, usually with a hydrogen–oxygen atom ratio of 2:1 (as in water) and thus with the empirical formula (where ''m'' may or m ...
s (e.g.,
glycerol
Glycerol (), also called glycerine in British English and glycerin in American English, is a simple triol compound. It is a colorless, odorless, viscous liquid that is sweet-tasting and non-toxic. The glycerol backbone is found in lipids known ...
),
urea
Urea, also known as carbamide, is an organic compound with chemical formula . This amide has two amino groups (–) joined by a carbonyl functional group (–C(=O)–). It is thus the simplest amide of carbamic acid.
Urea serves an important ...
,
NH3,
CO2,
H2O2 and
ion
An ion () is an atom or molecule with a net electrical charge.
The charge of an electron is considered to be negative by convention and this charge is equal and opposite to the charge of a proton, which is considered to be positive by conve ...
s by energy-independent mechanisms. For example, the glycerol channel, FPS1p of ''
Saccharomyces cerevisiae
''Saccharomyces cerevisiae'' () (brewer's yeast or baker's yeast) is a species of yeast (single-celled fungus microorganisms). The species has been instrumental in winemaking, baking, and brewing since ancient times. It is believed to have b ...
'' mediates uptake of arsenite and antimonite. Ion permeability appears to occur through a pathway different than that used for water/glycerol transport and may involve a channel at the 4 subunit interface rather than the channels through the subunits. MIP family members are found ubiquitously in bacteria, archaea and eukaryotes. Phylogenetic clustering of the proteins is primarily based according to phylum of the organisms of origin, but one or more clusters are observed for each phylogenetic kingdom (plants, animals, yeast, bacteria and archaea). MIPs are classified into five subfamilies in higher plants, including plasma membrane (PIPs), tonoplast (TIPs), NOD26-like (NIPs), small basic (SIPs) and unclassified X (XIPs) intrinsic proteins. One of the plant clusters includes only tonoplast (TIP) proteins, while another includes
plasma membrane (PIP) proteins.
Major Intrinsic Protein
The Major Intrinsic Protein (MIP) of the human lens of the eye (Aqp0), after which the MIP family was named, represents about 60% of the protein in the lens cell. In the native form, it is an
aquaporin
Aquaporins, also called water channels, are channel proteins from a larger family of major intrinsic proteins that form pores in the membrane of biological cells, mainly facilitating transport of water between cells. The cell membranes of a ...
(AQP), but during lens development, it becomes proteolytically truncated. The channel, which normally houses 6-9 water molecules, becomes constricted so only three remain, and these are trapped in a closed conformation. These truncated tetramers form intercellular adhesive junctions (head to head), yielding a crystalline array that mediates lens formation with cells tightly packed as required to form a clear lens. Lipids crystallize with the protein. Ion channel activity has been shown for Aquaporins 0,
1, and 6, ''Drosophila'' 'Big Brain' (bib) and plant Nodulin-26. Roles of aquaporins in human cancer have been reviewed as have their folding pathways. AQPs may act as transmembrane osmosensors in red cells, secretory granules and microorganisms. MIP superfamly proteins and variations of their selectivity filters have been reviewed.
Aquaporin
The currently known
aquaporin
Aquaporins, also called water channels, are channel proteins from a larger family of major intrinsic proteins that form pores in the membrane of biological cells, mainly facilitating transport of water between cells. The cell membranes of a ...
s cluster loosely together as do the known glycerol facilitators.
MIP family proteins are believed to form aqueous pores that selectively allow passive transport of their solute(s) across the membrane with minimal apparent recognition. Aquaporins selectively transport glycerol as well as water while glycerol facilitators selectively transport glycerol but not water. Some aquaporins can transport NH
3 and CO
2. Glycerol facilitators function as solute nonspecific channels, and may transport glycerol, dihydroxyacetone, propanediol, urea and other small neutral molecules in physiologically important processes. Some members of the family, including the yeast Fps1 protein
TC# 1.A.8.5.1 and tobacco NtTIPa
TC# 1.A.8.10.2 may transport both water and small solutes.
=Examples
=
A list of nearly 100 currently classified members of the MIP family can be found in th
Transporter Classification Database Some of the MIP family channels include:
* Mammalian
major intrinsic protein (MIP). MIP is the major component of lens fibre gap junctions.
* Mammalian
aquaporin
Aquaporins, also called water channels, are channel proteins from a larger family of major intrinsic proteins that form pores in the membrane of biological cells, mainly facilitating transport of water between cells. The cell membranes of a ...
s.
() These proteins form water-specific channels that provide the plasma membranes of red cells, as well as kidney proximal and collecting tubules with high permeability to water, thereby permitting water to move in the direction of an osmotic gradient.
* Soybean nodulin-26, a major component of the peribacteroid membrane induced during nodulation in legume roots after ''Rhizobium'' infection.
* Plant tonoplast intrinsic proteins (TIP). There are various isoforms of TIP : alpha (seed), gamma, Rt (root), and Wsi (water-stress induced). These proteins may allow the diffusion of water, amino acids and/or peptides from the tonoplast interior to the cytoplasm.
* Bacterial
glycerol facilitator protein (gene glpF), which facilitates the movement of glycerol non-specifically across the cytoplasmic membrane.
* ''
Salmonella typhimurium
''Salmonella enterica'' subsp. ''enterica'' is a subspecies of ''Salmonella enterica'', the rod-shaped, flagellated, aerobic, Gram-negative bacterium. Many of the pathogenic serovars of the ''S. enterica'' species are in this subspecies, includin ...
'' propanediol diffusion facilitator (gene pduF).
* Yeast FPS1, a glycerol uptake/efflux facilitator protein.
* ''Drosophila'' neurogenic protein 'big brain' (bib). This protein may mediate intercellular communication; it may functions by allowing the transport of certain molecules(s) and thereby sending a signal for an exodermal cell to become an epidermoblast instead of a neuroblast.
* Yeast hypothetical protein YFL054c.
* A hypothetical protein from the pepX region of ''
Lactococcus lactis
''Lactococcus lactis'' is a Gram-positive bacterium used extensively in the production of buttermilk and cheese, but has also become famous as the first genetically modified organism to be used alive for the treatment of human disease. ''L. lact ...
''.
Structure
MIP family channels consist of homotetramers (e.g., GlpF of ''E. coli''
TC #1.A.8.1.1 AqpZ of ''E. coli''
TC #1.A.8.3.1 and MIP or Aqp0 of ''Bos taurus''
TC #1.A.8.8.1. Each subunit spans the membrane six times as putative α-helices. The 6 TMS domains are believed to have arisen from a 3-spanner-encoding genetic element by a tandem, intragenic duplication event. The two halves of the proteins are therefore of opposite orientation in the membrane. A well-conserved region between TMSs 2 and 3 and TMSs 5 and 6 dip into the membrane, each loop forming a half TMS.
A common amino acyl motif in these transporters is an asparagine–proline–alanine (NPA) motif. Aquaporins generally have the NPA motif in both halves, the glycerol facilitators generally have an NPA motif in the first haves and a DPA motif in the second halves, and the super-aquaporins have poorly conserved NPA motifs in both halves.
Glycerol Uptake Facilitator
The crystal structure of the glycerol facilitator of ''E. coli''
TC# 1.A.8.1.1 was solved at 2.2 Å resolution (). Glycerol molecules create a single file within the channel and pass through a narrow selectivity filter. The two conserved D-P-A motifs in the loops between TMSs 2 and 3 and TMSs 5 and 6 form the interface between the two duplicated halves of each subunit. Thus each half of the protein forms 3.5 TMSs surrounding the channel. The structure explains why GlpF is selectively permeable to straight chain carbohydrates, and why water and ions are largely excluded. Aquaporin-1 (AQP1) and the bacterial glycerol facilitator, GlpF can transport O
2, CO
2, NH
3, glycerol, urea, and water to varying degrees. For small solutes passing through AQP1, there is an anti-correlation between permeability and solute hydrophobicity. AQP1 is thus a selective filter for small polar solutes, whereas GlpF is highly permeable to small solutes and less permeable to larger solutes.
Aquaporin-1
Aquaporin-1 (Aqp1) from the human red blood cell has been solved by electron crystallography to 3.8 Å resolution (). The aqueous pathway is lined with conserved hydrophobic residues that permit rapid water transport. Water selectivity is due to a constriction of the inner pore diameter to about 3 Å over the span of a single residue, superficially similar to that in the glycerol facilitator of ''E. coli.'' Several other more recently resolved crystal structures are available in RCSB, including but not limited to: , , .
Aquaporin-Z
AqpZ, a homotetramer (tAqpZ) of four water-conducting channels that facilitate rapid water movements across the plasma membrane of ''E. coli'', has been solved to 3.2 Å resolution (). All channel-lining residues in the four monomeric channels are orientated in nearly identical positions except at the narrowest channel constriction, where the side chain of a conserved Arg-189 adopts two distinct orientations. In one of the four monomers, the guanidino group of Arg-189 points toward the periplasmic vestibule, opening up the constriction to accommodate the binding of a water molecule through a tridentate H-bond. In the other three monomers, the Arg-189 guanidino group bends over to form an H-bond with carbonyl oxygen of Thr-183 occluding the channel. Therefore, the tAqpZ structure has two different Arg-189 conformations which provide water permeation through the channel. Alternating between the two Arg-189 conformations disrupts continuous flow of water, thus regulating the open probability of the water pore. Further, the difference in Arg-189 displacements is correlated with a strong electron density found between the first transmembrane helices of two open channels, suggesting that the observed Arg-189 conformations are stabilized by asymmetrical subunit interactions in tAqpZ. Other resolved crystal structures for AqpZ include: , , .
PIP1 and PIP2
The 3-D structures of the open and closed forms of plant aquaporins, PIP1 and PIP2, have been solved (). In the closed conformation, loop D caps the channel from the cytoplasm and thereby occludes the pore. In the open conformation, loop D is displaced up to 16 Å, and this movement opens a hydrophobic gate blocking the channel entrance from the cytoplasm. These results reveal a molecular gating mechanism which appears conserved throughout all plant plasma membrane aquaporins. In plants it regulates water intake/export in response to water availability and cytoplasmic pH during anoxia.
Human proteins containing this domain
AQP1,
AQP2
Aquaporin-2 (AQP-2) is found in the apical cell membranes of the kidney's collecting duct principal cells and in intracellular vesicles located throughout the cell. It is encoded by the gene.
Regulation
It is the only aquaporin regulated by ...
,
AQP3,
AQP4,
AQP5,
,
AQP7,
AQP8,
AQP9,
,
MIP
See also
*
MIPModDB
*
MIP (gene)
*
Aquaporin
Aquaporins, also called water channels, are channel proteins from a larger family of major intrinsic proteins that form pores in the membrane of biological cells, mainly facilitating transport of water between cells. The cell membranes of a ...
s
*
Integral membrane protein
An integral, or intrinsic, membrane protein (IMP) is a type of membrane protein that is permanently attached to the biological membrane. All ''transmembrane proteins'' are IMPs, but not all IMPs are transmembrane proteins. IMPs comprise a sign ...
*
Transporter Classification Database
*
Protein Superfamily
*
Protein family
References
{{reflist
Protein domains
Protein families
Transmembrane proteins