AS3D Human


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Human Gene Lists I
integral to membrane, IEA1442 genes
integral to plasma membrane, TAS801 genes
intracellular, IEA292 genes
intracellular signaling cascade, IEA265 genes
integral to membrane, TAS187 genes
ion transport, IEA186 genes
integral to membrane, NAS185 genes
ig, Immunoglobulin domain. Members of the immunoglobulin superfamily are found in hundreds of proteins of different functions. Examples include antibodies, the giant muscle kinase titin and receptor tyrosine kinases. Immunoglobulin-like domain158 genes
immune response, IEA148 genes
immune response, TAS136 genes
Ion_trans, Ion transport protein. This family contains Sodium, Potassium, Calcium ion channels. This family is 6 transmembrane helices in which the last two helices flank a loop which determines ion selectivity. In some sub-families (e.g. Na c133 genes
ion channel activity, IEA108 genes
inflammatory response, TAS97 genes
intracellular protein transport, IEA95 genes
isomerase activity, IEA84 genes
integral to plasma membrane, NR75 genes
induction of apoptosis, TAS49 genes
immune response, NAS49 genes
IL8, Small cytokines (intecrine/chemokine), interleukin-8 like. Includes a number of secreted growth factors and interferons involved in mitogenic, chemotactic, and inflammatory activity. Structure contains two highly conserved disulfide bonds45 genes
integral to plasma membrane, NAS43 genes
intermediate filament, IEA36 genes
inner membrane, IEA36 genes
intracellular, NAS32 genes
IER, Immediate early response protein (IER). This family consists of several eukaryotic immediate early response (IER) 2 and 5 proteins. The role of IER5 is unclear although it play an important role in mediating the cellular response to mitog30 genes
intracellular signaling cascade, NAS29 genes
integrin-mediated signaling pathway, IEA27 genes
intracellular signaling cascade, TAS27 genes
iron ion binding, IEA26 genes
integral to membrane, ISS25 genes
inflammatory response, IEA24 genes
inflammatory response, NR22 genes
immune response, NR22 genes
intracellular protein transport, TAS21 genes
Interferon, Interferon alpha/beta domain18 genes
integrin binding, TAS18 genes
intermediate filament, TAS18 genes
intracellular protein transport, NAS17 genes
integrin complex, TAS17 genes
intermediate filament, NAS16 genes
IRK, Inward rectifier potassium channel15 genes
induction of apoptosis by extracellular signals, TAS15 genes
integral to membrane, IDA15 genes
inflammatory response, NAS14 genes
integral to membrane, IC14 genes
intracellular, IC13 genes
intracellular, ISS13 genes
intracellular, TAS13 genes
intermediate filament, NR13 genes
integral to plasma membrane, IEA13 genes
integrin complex, IEA13 genes
insulin-like growth factor binding, IEA12 genes
intercellular junction, TAS12 genes
induction of apoptosis, NAS12 genes
IBR, IBR domain. The IBR (In Between Ring fingers) domain is found to occur between pairs of ring fingers (pfam00097). The function of this domain is unknown. This domain has also been called the C6HC domain and DRIL (for double RING finger li11 genes
IRS, PTB domain (IRS-1 type)11 genes
IBN_N, Importin-beta N-terminal domain11 genes
iron ion transport, IEA11 genes
integral to membrane, NR11 genes
insulin receptor binding, IEA10 genes
IGFBP, Insulin-like growth factor binding protein9 genes
IL1, Interleukin-1 / 18. This family includes interleukin-1 and interleukin-189 genes
IRF, Interferon regulatory factor transcription factor. This family of transcription factors are important in the regulation of interferons in response to infection by virus and in the regulation of interferon-inducible genes. Three of the fiv9 genes
IBB, Importin beta binding domain. This family consists of the importin alpha (karyopherin alpha), importin beta (karyopherin beta) binding domain. The domain mediates formation of the importin alpha beta complex; required for classical NLS im9 genes
inward rectifier potassium channel activity, TAS9 genes
insoluble fraction, TAS9 genes
integrin-mediated signaling pathway, NAS9 genes
ion transporter activity, IEA9 genes
Integrin_beta, Integrin, beta chain. Sequences cut off at repeats due to overlap with EGF8 genes
inactivation of MAPK, TAS8 genes
inorganic anion exchanger activity, IEA8 genes
integral to plasma membrane, IDA8 genes
integral to plasma membrane, ISS8 genes
Inositol_P, Inositol monophosphatase family7 genes
IMPDH, IMP dehydrogenase / GMP reductase domain. This family is involved in biosynthesis of guanosine nucleotide. Members of this family contain a TIM barrel structure. In the inosine monophosphate dehydrogenases 2 CBS domains pfam00571 are in7 genes
IPK, Inositol polyphosphate kinase. ArgRIII has has been demonstrated to be an inositol polyphosphate kinase7 genes
inositol or phosphatidylinositol kinase activity, IEA7 genes
inositol or phosphatidylinositol phosphatase activity, IEA7 genes
intercellular junction, NR7 genes
induction of apoptosis, ISS7 genes
insulin receptor signaling pathway, TAS7 genes
isoprenoid biosynthesis, IEA7 genes
IgG binding, IEA7 genes
integral to Golgi membrane, NAS7 genes
Insulin, Insulin/IGF/Relaxin family. Superfamily includes insulins; relaxins; insulin-like growth factor; and bombyxin. All are secreted regulatory hormones. Disulfide rich, all-alpha fold. Alignment includes B chain, linker (which is processe6 genes
IL17, Interleukin-17. IL-17 is a potent proinflammatory cytokine produced by activated memory T cells. The IL-17 family is thought to represent a distinct signaling system that appears to have been highly conserved across vertebrate evolution6 genes
ITI_HC_C, Inter-alpha-trypsin inhibitor heavy chain C-terminus. This family represents the C-terminal region of inter-alpha-trypsin inhibitor heavy chains. Inter-alpha-trypsin inhibitors are glycoproteins with a high inhibitory activity agains6 genes
IFNGR1, Interferon gamma receptor alpha chain (IFNGR1). This family consists of several mammalian interferon gamma receptor (IFNGR1) proteins. Molecular interactions among cytokines and cytokine receptors form the basis of many cell-signaling 6 genes
interferon-alpha/beta receptor binding, TAS6 genes
intracellular, IDA6 genes
iron ion homeostasis, TAS6 genes
intra-Golgi transport, IEA6 genes
induction of apoptosis, IMP6 genes
integrin-mediated signaling pathway, TAS6 genes
intracellular signaling cascade, ISS6 genes
ion channel inhibitor activity, TAS6 genes
induction of apoptosis by intracellular signals, TAS6 genes
integral to Golgi membrane, IDA6 genes
innate immune response, NAS6 genes
Iso_dh, Isocitrate/isopropylmalate dehydrogenase5 genes
IL10, Interleukin 105 genes
IF4E, Eukaryotic initiation factor 4E5 genes
IP_trans, Phosphatidylinositol transfer protein5 genes
ICAM_N, Intercellular adhesion molecule (ICAM), N-terminal domain. ICAMs normally functions to promote intercellular adhesion and signalling. However, The N-terminal domain of the receptor binds to the rhinovirus 'canyon' surrounding the icosa5 genes
IKI3, IKI3 family. Members of this family are components of the elongator multi-subunit component of a novel RNA polymerase II holoenzyme for transcriptional elongation5 genes
intracellular transporter activity, IEA5 genes
intracellular transporter activity, TAS5 genes
integral to peroxisomal membrane, TAS5 genes
iron ion homeostasis, IEA5 genes
intercellular junction assembly, TAS5 genes
inositol-trisphosphate 3-kinase activity, IEA5 genes
induction of apoptosis via death domain receptors, TAS5 genes
IgE binding, IEA5 genes
integral to endoplasmic reticulum membrane, NAS5 genes
IMS, impB/mucB/samB family. These proteins are involved in UV protection4 genes
IF_tail, Intermediate filament tail domain4 genes
IF-2B, Initiation factor 2 subunit family. This family includes initiation factor 2B alpha, beta and delta subunits from eukaryotes, initiation factor 2B subunits 1 and 2 from archaebacteria and some proteins of unknown function from prokaryot4 genes
I_LWEQ, I/LWEQ domain. I/LWEQ domains bind to actin. It has been shown that the I/LWEQ domains from mouse talin and yeast Sla2p interact with F-actin. I/LWEQ domains can be placed into four major groups based on sequence similarity: (1) Metazo4 genes
ISK_Channel, Slow voltage-gated potassium channel4 genes
IncA, IncA protein. Chlamydia trachomatis is an obligate intracellular bacterium that develops within a parasitophorous vacuole termed an inclusion. The inclusion is nonfusogenic with lysosomes but intercepts lipids from a host cell exocytic p4 genes
IPP-2, Protein phosphatase inhibitor 2 (IPP-2). Protein phosphotase inhibitor 2 (IPP-2) is a phosphoprotein conserved among all eukaryotes, and it appears in both the nucleus and cytoplasm of tissue culture cells4 genes
interleukin receptor activity, TAS4 genes
inotropic glutamate receptor activity, IEA4 genes
integrin binding, IPI4 genes
integral to nuclear inner membrane, TAS4 genes
integral to peroxisomal membrane, NR4 genes
intracellular protein transport, ISS4 genes
intra-Golgi transport, TAS4 genes
induction of apoptosis, IDA4 genes
intracellular signaling cascade, IDA4 genes
I-kappaB kinase/NF-kappaB cascade, TAS4 genes
ion transporter activity, TAS4 genes
innate immune response, TAS4 genes
IL6, Interleukin-6/G-CSF/MGF family3 genes
IQ, IQ calmodulin-binding motif. Calmodulin-binding motif3 genes
IIGP, Interferon-inducible GTPase (IIGP). Interferon-inducible GTPase (IIGP) is thought to play a role in in intracellular defence. IIGP is predominantly associated with the Golgi apparatus and also localises to the endoplasmic reticulum and e3 genes
inhibition of caspase activation, IDA3 genes
inositol-polyphosphate 5-phosphatase activity, TAS3 genes
interleukin-1 receptor activity, IEA3 genes
interleukin-2 receptor activity, TAS3 genes
insulin-like growth factor receptor activity, TAS3 genes
interleukin-1 receptor binding, NAS3 genes
interleukin-1 receptor antagonist activity, IEA3 genes
insulin-like growth factor receptor binding, TAS3 genes
integrin binding, ISS3 genes
integrin binding, NAS3 genes
inositol 1,4,5-triphosphate-sensitive calcium-release channel activity, IEA3 genes
inward rectifier potassium channel activity, IEA3 genes
intracellular transporter activity, NAS3 genes
iron ion binding, TAS3 genes
insulin-like growth factor binding, TAS3 genes
integral to plasma membrane, IC3 genes
imprinting, TAS3 genes
iron ion transport, NR3 genes
intracellular protein transport, NR3 genes
intra-Golgi transport, NAS3 genes
I-kappaB kinase/NF-kappaB cascade, NAS3 genes
inositol-1,4,5-triphosphate receptor activity, TAS3 genes
integrin complex, NAS3 genes
induction of apoptosis by hormones, TAS3 genes
intramolecular transferase activity, phosphotransferases, IEA3 genes
integral to Golgi membrane, ISS3 genes
integral to endoplasmic reticulum membrane, IDA3 genes
integral to endoplasmic reticulum membrane, ISS3 genes
immune cell chemotaxis, TAS3 genes
immune cell activation, NAS3 genes
intracellular transport, ISS3 genes
Isochorismatase, Isochorismatase family. This family are hydrolase enzymes2 genes
Innexin, Innexin. This family includes the drosophila proteins Ogre and shaking-B, and the C. elegans proteins Unc-7 and Unc-9. Members of this family are integral membrane proteins which are involved in the formation of gap junctions. This fa2 genes
IspD, Uncharacterized protein family UPF00072 genes
IDO, Indoleamine 2,3-dioxygenase2 genes
IL7, Interleukin 7/9 family. IL-7 is a cytokine that acts as a growth factor for early lymphoid cells of both B- and T-cell lineages. IL-9 is a multi-functional cytokine that, although originally described as a T-cell growth factor, its functi2 genes
IL15, Interleukin 15. Interleukin-15 (IL-15) is a cytokine that possesses a variety of biological functions, including stimulation and maintenance of cellular immune responses2 genes
IL1_propep, Interleukin-1 propeptide. The Interleukin-1 cytokines are translated as precursor proteins. The N terminal approx. 115 amino acids form a propeptide that is cleaved off to release the active interleukin-12 genes
ICA69, Islet cell autoantigen ICA69, C-terminal domain. This family includes a 69 kD protein which has been identified as an islet cell autoantigen in type I diabetes mellitus. Its precise function is unknown2 genes
IFRD_C, Interferon-related protein conserved region. Family of proteins thought to be involved in regulating gene activity in the proliferative and/or differentiative pathways induced by NGF2 genes
IFRD, Interferon-related developmental regulator (IFRD). Interferon-related developmental regulator (IFRD1) is the human homologue of the rat early response protein PC4 and its murine homologue TIS7. The exact function of IFRD1 is unknown but 2 genes
Ifi-6-16, Interferon-induced 6-16 family2 genes
ICAT, Beta-catenin-interacting protein ICAT. This family consists of several eukaryotic beta-catenin-interacting (ICAT) proteins. Beta-catenin is a multifunctional protein involved in both cell adhesion and transcriptional activation. Transcri2 genes
INSIG, Insulin-induced protein (INSIG). This family contains a number of eukaryotic Insulin-induced proteins (INSIG-1 and INSIG-2) approximately 200 residues long. INSIG-1 and INSIG-2 are found in the endoplasmic reticulum and bind the sterol-2 genes
IFP_35_N, Interferon-induced 35 kDa protein (IFP 35) N-terminus. This family represents the N-terminus of interferon-induced 35 kDa protein (IFP 35) (approximately 80 residues long), which contains a leucine zipper motif in an alpha helical co2 genes
inactivation of MAPK, ISS2 genes
inactivation of MAPK, NAS2 genes
IMP dehydrogenase activity, TAS2 genes
inositol-polyphosphate 5-phosphatase activity, NAS2 genes
isoleucine-tRNA ligase activity, IEA2 genes
interferon-alpha/beta receptor activity, TAS2 genes
interferon-gamma receptor activity, TAS2 genes
interleukin-1, Type II, blocking receptor activity, IEA2 genes
interleukin-3 receptor activity, TAS2 genes
interleukin-4 receptor activity, TAS2 genes
interleukin-5 receptor activity, TAS2 genes
interleukin-6 receptor activity, TAS2 genes
interleukin-7 receptor activity, TAS2 genes
interleukin-8 receptor activity, TAS2 genes
interleukin-10 receptor activity, TAS2 genes
interleukin-1 receptor binding, IEA2 genes
interleukin-1 receptor antagonist activity, TAS2 genes
insulin receptor binding, TAS2 genes
insulin-like growth factor receptor binding, IPI2 genes
ion channel activity, TAS2 genes
intracellular cAMP activated cation channel activity, NAS2 genes
iron ion transporter activity, TAS2 genes
intracellular transporter activity, ISS2 genes
intracellular, IEP2 genes
integral to peroxisomal membrane, NAS2 genes
isocitrate metabolism, TAS2 genes
isoleucyl-tRNA aminoacylation, IEA2 genes
internal protein amino acid acetylation, TAS2 genes
ion transport, ISS2 genes
ion transport, NAS2 genes
ion transport, TAS2 genes
iron ion transport, NAS2 genes
iron ion transport, TAS2 genes
iron ion homeostasis, NAS2 genes
intracellular iron ion storage, TAS2 genes
inflammatory response, IDA2 genes
inflammatory response, IMP2 genes
inflammatory response, ISS2 genes
intracellular signaling cascade, NR2 genes
I-kappaB kinase/NF-kappaB cascade, IDA2 genes
I-kappaB phosphorylation, TAS2 genes
insemination, TAS2 genes
isoprenoid biosynthesis, TAS2 genes
integrin complex, NR2 genes
inositol-trisphosphate 3-kinase activity, TAS2 genes
induction of apoptosis via death domain receptors, NAS2 genes
induction of apoptosis by oxidative stress, NAS2 genes
ion transporter activity, NAS2 genes
iodide transporter activity, TAS2 genes
intein-mediated protein splicing, IEA2 genes
intracellular cyclic nucleotide activated cation channel complex, NAS2 genes
insulin secretion, NAS2 genes
integral to Golgi membrane, IEA2 genes
integral to Golgi membrane, TAS2 genes
integral to endoplasmic reticulum membrane, IEA2 genes
interferon-gamma biosynthesis, TAS2 genes
inner ear morphogenesis, ISS2 genes
intermediate filament cytoskeleton organization and biogenesis, ISS2 genes
ion channel clustering, ISS2 genes
interleukin-1 receptor complex, NAS2 genes
intracellular virion transport, TAS2 genes
intracellular transport, TAS2 genes
inositol phosphate-mediated signaling, IDA2 genes
inositol phosphate-mediated signaling, ISS2 genes
Integrin_alpha, Integrin alpha cytoplasmic region. This family contains the short intracellular region of integrin alpha chains1 genes
Integrase, Integrase DNA binding domain. Integrase mediates integration of a DNA copy of the viral genome into the host chromosome. Integrase is composed of three domains. The amino-terminal domain is a zinc binding domain. The central domain 1 genes
IF3_C, Translation initiation factor IF-3, C-terminal domain1 genes
IFN-gamma, Interferon gamma1 genes
IL2, Interleukin 21 genes
IL4, Interleukin 41 genes
Inos-1-P_synth, Myo-inositol-1-phosphate synthase. This is a family of myo-inositol-1-phosphate synthases. Inositol-1-phosphate catalyses the conversion of glucose-6- phosphate to inositol-1-phosphate, which is then dephosphorylated to inosito1 genes
IPPT, IPP transferase. This is a family of IPP transferases EC:2.5.1.8 also known as tRNA delta(2)-isopentenylpyrophosphate transferase. These enzymes modify both cytoplasmic and mitochondrial tRNAs at A(37) to give isopentenyl A(37)1 genes
IL5, Interleukin 51 genes
IL3, Interleukin-31 genes
IRBP, Interphotoreceptor retinoid-binding protein. Interphotoreceptor retinoid-binding protein (IRBP) mediates retinoid trafficking between the photoreceptors and pigmented epithelium. This Pfam family represents a repeat domain found four tim1 genes
Integrase_DNA, DNA binding domain of tn916 integrase1 genes
Isoamylase_N, Isoamylase N-terminal domain. This domain is found in a range of enzymes that act on branched substrates - isoamylase, pullulanase and branching enzyme. This family also contains the beta subunit of 5' AMP activated kinase1 genes
IL12, Interleukin-12 alpha subunit. Interleukin 12 (IL-12) is a disulphide-bonded heterodimer consisting of a 35kDa alpha subunit and a 40kDa beta subunit. It is involved in the stimulation and maintenance of Th1 cellular immune responses, inc1 genes
Interleukin_13, Interleukin-131 genes
ICln_channel, Nucleotide-sensitive chloride conductance regulator (ICln)1 genes
Invas_B, Salmonella/Shigella invasin protein B1 genes
INCENP_ARK-bind, Inner centromere protein, ARK binding region. This region of the inner centromere protein has been found to be necessary and sufficient for binding to aurora-related kinase. This interaction has been implicated in the coordina1 genes
ICMT, Isoprenylcysteine carboxyl methyltransferase (ICMT) family. The isoprenylcysteine o-methyltransferase (EC:2.1.1.100) family carry out carboxyl methylation of cleaved eukaryotic proteins that terminate in a CaaX motif. In Saccharomyces ce1 genes
IATP, Mitochondrial ATPase inhibitor, IATP. ATP synthase inhibitor prevents the enzyme from switching to ATP hydrolysis during collapse of the electrochemical gradient, for example during oxygen deprivation, ATP synthase inhibitor forms a one 1 genes
Img2, Mitochondrial large subunit ribosomal protein (Img2). This family of proteins have been identified as part of the mitochondrial large ribosomal subunit in yeast1 genes
IF3_N, Translation initiation factor IF-3, N-terminal domain1 genes
Ins134_P3_kin, Inositol 1, 3, 4-trisphosphate 5/6-kinase. This family consists of several inositol 1, 3, 4-trisphosphate 5/6-kinase proteins. Inositol 1,3,4-trisphosphate is at a branch point in inositol phosphate metabolism. It is dephosphory1 genes
IWS1_C, IWS1 C-terminus. This family consists of a the C terminal region of a number of eukaryotic hypothetical proteins which are homologous to the Saccharomyces cerevisiae protein IWS1. IWS1 is known to be an Pol II transcription elongation 1 genes
Isy1, Isy1-like splicing family. Isy1 protein is important in the optimisation of splicing1 genes
IL23A, Interleukin 23 alpha subunit p19 (IL23A). This family consists of several interleukin 23 alpha subunit p19 (IL23A) proteins. p19 shows no biological activity by itself; instead, it combines with the p40 subunit of IL-12 to form a novel,1 genes
IL11, Interleukin 11. This family contains interleukin 11 (approximately 200 residues long). This is a secreted protein that stimulates megakaryocytopoiesis, resulting in increased production of platelets, as well as activating osteoclasts, in1 genes
inactivation of MAPK, IDA1 genes
integral to membrane of membrane fraction, IDA1 genes
integral to membrane of membrane fraction, TAS1 genes
interleukin-21 receptor activity, NAS1 genes
interpretation of external signals that regulate cell growth, TAS1 genes
inhibition of caspase activation, IEP1 genes
inhibition of caspase activation, NAS1 genes
IMP cyclohydrolase activity, TAS1 genes
IMP dehydrogenase activity, IEA1 genes
insulysin activity, TAS1 genes
interstitial collagenase activity, IEA1 genes
iduronate-2-sulfatase activity, TAS1 genes
indoleamine-pyrrole 2,3-dioxygenase activity, IEA1 genes
inorganic diphosphatase activity, TAS1 genes
inositol or phosphatidylinositol kinase activity, NR1 genes
inositol or phosphatidylinositol kinase activity, TAS1 genes
inositol or phosphatidylinositol phosphatase activity, NAS1 genes
inositol-1,4-bisphosphate 1-phosphatase activity, TAS1 genes
iodide peroxidase activity, IEA1 genes
isocitrate dehydrogenase (NAD+) activity, IEA1 genes
isocitrate dehydrogenase (NAD+) activity, TAS1 genes
isocitrate dehydrogenase (NADP+) activity, IEA1 genes
isocitrate dehydrogenase (NADP+) activity, NAS1 genes
isocitrate dehydrogenase (NADP+) activity, TAS1 genes
isopentenyl-diphosphate delta-isomerase activity, IEA1 genes
isopentenyl-diphosphate delta-isomerase activity, TAS1 genes
inositol-3-phosphate synthase activity, IEA1 genes
interferon receptor activity, TAS1 genes
interleukin receptor activity, NAS1 genes
interleukin-1, Type I, activating receptor activity, IEA1 genes
interleukin-1, Type I, activating receptor activity, TAS1 genes
interleukin-5 receptor activity, NAS1 genes
interleukin-9 receptor activity, TAS1 genes
inotropic glutamate receptor activity, NR1 genes
interferon-alpha/beta receptor binding, IDA1 genes
interferon-alpha/beta receptor binding, ISS1 genes
interferon-alpha/beta receptor binding, NAS1 genes
interferon-alpha/beta receptor binding, NR1 genes
interferon-gamma receptor binding, TAS1 genes
interleukin-3 receptor binding, IEA1 genes
interleukin-4 receptor binding, TAS1 genes
interleukin-5 receptor binding, ISS1 genes
interleukin-5 receptor binding, TAS1 genes
interleukin-6 receptor binding, IEA1 genes
interleukin-6 receptor binding, IPI1 genes
interleukin-6 receptor binding, TAS1 genes
interleukin-7 receptor binding, TAS1 genes
interleukin-9 receptor binding, IEA1 genes
interleukin-10 receptor binding, NAS1 genes
interleukin-11 receptor binding, NAS1 genes
interleukin-12 receptor binding, TAS1 genes
interleukin-13 receptor binding, IEA1 genes
interleukin-1 receptor antagonist activity, NAS1 genes
interleukin-8 receptor binding, IPI1 genes
interleukin-8 receptor binding, TAS1 genes
insulin receptor binding, NAS1 genes
insulin-like growth factor receptor binding, ISS1 genes
integrin binding, NR1 genes
ion channel activity, NAS1 genes
intracellular cyclic nucleotide activated cation channel activity, TAS1 genes
intracellular calcium activated chloride channel activity, IDA1 genes
inward rectifier potassium channel activity, NAS1 genes
inorganic phosphate transporter activity, IDA1 genes
inorganic phosphate transporter activity, IEA1 genes
iron ion transporter activity, NAS1 genes
inorganic anion exchanger activity, TAS1 genes
intracellular transporter activity, NR1 genes
insulin-like growth factor binding, NAS1 genes
insoluble fraction, NR1 genes
integral to plasma membrane, IEP1 genes
interleukin-5 receptor complex, ISS1 genes
interleukin-5 receptor complex, NAS1 genes
interleukin-6 receptor complex, TAS1 genes
interleukin-13 receptor complex, TAS1 genes
imprinting, ISS1 genes
imprinting, NAS1 genes
imprinting, NR1 genes
icosanoid metabolism, NAS1 genes
icosanoid metabolism, TAS1 genes
ion transport, NR1 genes
intracellular protein transport, IDA1 genes
intracellular protein transport, IMP1 genes
intra-Golgi transport, IMP1 genes
induction of apoptosis, NR1 genes
immune response, IDA1 genes
immune response, ISS1 genes
inner mitochondrial membrane organization and biogenesis, IDA1 genes
intercellular junction assembly, NAS1 genes
integrin-mediated signaling pathway, ISS1 genes
I-kappaB kinase/NF-kappaB cascade, ISS1 genes
imaginal disc pattern formation, TAS1 genes
importin-alpha export receptor activity, TAS1 genes
insulin receptor signaling pathway, NAS1 genes
integrin complex, ISS1 genes
IkappaB kinase activity, TAS1 genes
isovaleryl-CoA dehydrogenase activity, TAS1 genes
induction of apoptosis by extracellular signals, IDA1 genes
induction of apoptosis by extracellular signals, NAS1 genes
induction of apoptosis via death domain receptors, IMP1 genes
induction of apoptosis via death domain receptors, ISS1 genes
integrase activity, IEA1 genes
inositol-1(or 4)-monophosphatase activity, IEA1 genes
inositol-1(or 4)-monophosphatase activity, TAS1 genes
internal side of plasma membrane, NAS1 genes
intracellular copper ion transport, TAS1 genes
iota DNA polymerase activity, TAS1 genes
integral to membrane, IEP1 genes
integral to membrane, IPI1 genes
iron-sulfur cluster assembly, TAS1 genes
inclusion body, ISS1 genes
intermediate filament binding, NAS1 genes
IgA binding, IEA1 genes
IgA binding, IPI1 genes
insulin secretion, IDA1 genes
integral to endoplasmic reticulum membrane, IEP1 genes
integral to endoplasmic reticulum membrane, TAS1 genes
integral to synaptic vesicle membrane, NAS1 genes
interleukin-17 receptor activity, NAS1 genes
interleukin-17E receptor binding, TAS1 genes
inorganic diphosphate transporter activity, IDA1 genes
intracellular receptor-mediated signaling pathway, TAS1 genes
immune cell chemotaxis, IDA1 genes
interleukin-18 binding, IDA1 genes
interleukin-2 biosynthesis, TAS1 genes
interleukin-13 biosynthesis, TAS1 genes
isoamylase complex, TAS1 genes
induction of bacterial agglutination, ISS1 genes
innate immune response, ISS1 genes
interleukin-18 receptor complex, NAS1 genes
intermediate filament cytoskeleton organization and biogenesis, IEP1 genes
intermediate filament cytoskeleton organization and biogenesis, NAS1 genes
ion channel clustering, TAS1 genes
isotype switching, ISS1 genes
intercellular junction assembly and/or maintenance, ISS1 genes
intercellular junction maintenance, ISS1 genes
intercellular junction maintenance, NAS1 genes
interleukin-20 receptor binding, TAS1 genes
interleukin-22 receptor binding, NAS1 genes
interleukin-27 receptor binding, ISS1 genes
intracellular transport, NAS1 genes
inositol phosphate-mediated signaling, TAS1 genes
immunoglobulin secretion, ISS1 genes
inositol oxygenase activity, IEA1 genes
ice binding, IEA1 genes
induction of negative chemotaxis, IMP1 genes
induction of positive chemotaxis, IGI1 genes
induction of positive chemotaxis, NAS1 genes
induction of positive chemotaxis, TAS1 genes
AS3D: Alternative Splicing Structural Genomics Projects
CARB/UMBI