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(genetics) a segment of DNA that is involved in producing a polypeptide chain; it can include regions preceding and following the coding DNA as well as introns between the exons; it is considered a unit of heredity; "genes were formerly called factors" (同)cistron, factor
informal term for information; "give me the gen on your new line of computers"

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出典(authority):フリー百科事典『ウィキペディア（Wikipedia）』「2014/12/26 17:40:09」(JST)

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In molecular biology, housekeeping genes are typically constitutive genes that are required for the maintenance of basic cellular function, and are expressed in all cells of an organism under normal and patho-physiological conditions.^[1]^[2]^[3] Although some housekeeping genes (such as GAPDH, HSP90, and β-actin) are expressed at relatively constant levels in most non-pathological situations, other housekeeping genes may vary depending on experimental conditions.^[4]

In a study involving cardiac stem cells, ACTB and GAPDH were found to be the most consistent, while β2M, HPRT1, and RPLP1 varied significantly between neonatal and adult cardiac cells.^[5] The origin of the term "housekeeping gene" remains obscure. Literature from 1976 used the term to describe specifically tRNA and rRNA.^[6] Interpreting gene expression data can be problematic, with most human genes registering 5-10 copies per cell (possibly representing error). Housekeeping genes are expressed in at least 25 copies per cell and sometimes number in the thousands.

Other commonly used housekeeping genes are GUSB,^[7] LDHA,^[7] NONO,^[7] PGK1,^[7] PPIH,^[7] RPLP0,^[7] and TFRC.^[7]

1 Common housekeeping genes in human
- 1.1 Gene Expression
  - 1.1.1 Transcription Factors
    - 1.1.1.1 Repressors
  - 1.1.2 RNA Splicing
  - 1.1.3 Translation Factors
    - 1.1.3.1 tRNA Synthetases
    - 1.1.3.2 RNA Binding Protein
  - 1.1.4 Ribosomal Proteins
  - 1.1.5 RNA Polymerase
  - 1.1.6 Protein Processing
  - 1.1.7 Heat Shock Proteins
  - 1.1.8 Histone
  - 1.1.9 Cell Cycle
  - 1.1.10 Apoptosis
  - 1.1.11 Oncogenes
  - 1.1.12 DNA Repair/Replication
- 1.2 Metabolism
  - 1.2.1 Carbohydrate Metabolism
  - 1.2.2 Citric Acid Cycle
  - 1.2.3 Lipid Metabolism
  - 1.2.4 Amino Acid Metabolism
  - 1.2.5 Nucleotide Synthesis
  - 1.2.6 NADH Dehydrogenase
  - 1.2.7 Cytochrome C Oxidase
  - 1.2.8 ATPase
    - 1.2.8.1 Mitochondrial
    - 1.2.8.2 Lysosomal
  - 1.2.9 Lysosome
  - 1.2.10 Proteosome
  - 1.2.11 Ribonuclease
  - 1.2.12 Oxidase/Reductase
- 1.3 Structural
  - 1.3.1 Cytoskeletal
  - 1.3.2 Organelle Synthesis
  - 1.3.3 Mitochondrion
- 1.4 Surface
  - 1.4.1 Cell Adhesion
  - 1.4.2 Channels and Transporters
  - 1.4.3 Receptors
  - 1.4.4 HLA/Immunoglobulin/Cell recognition
- 1.5 Kinases/Signalling
  - 1.5.1 Growth Factors
  - 1.5.2 Tissue Necrosis Factor
  - 1.5.3 Casein Kinase
- 1.6 Miscellaneous
  - 1.6.1 Open_reading_frame
  - 1.6.2 Sperm/Testis
2 See also
3 References

Common housekeeping genes in human

Gene Expression

Transcription Factors

Sterol Regulatory Element Binding Protein

ATF4^[1]^[8] Activating transcription factor 4
BTF3^[1]^[8]
E2F4^[1]
ERH (gene)^[1]^[8] Enhancer of rudimentary homolog of drosophila (which in turn is the first enzymatic step in pyrimidine synthesis. Regulated by MITF)
HMGB1^[1]^[8] High mobility group box binds DNA
ILF2^[1]
IER2^[1] formerly ETR101 Immediate Early Protein
JUND^[1]^[8]
LTBP4^[1]
LMO1^[1] Rhombotin 1
MYC^[1]^[8] also considered an oncogene when mutated regulates transcription of 15% of all genes
PAX8^[1]
PHF1^[1]^[8] Plant homology domain
PTTG1IP^[1]
SREBF1^[1] Sterol Regulatory Element Binding Protein Smith Magenis
TBP^[9] aka TATA-binding protein or GTF2D or TFIID
TCEB2^[1]^[8] Elongin
TCOF1^[1] interacts with UBF to translate rRNA

Repressors

ANF91, HPF7, HTF10 ^[1] Kruppel Associated Box domain
ID3 (gene)^[1] inhibits DNA binding
PUF60^[1]^[8]
NFKBIA^[1]^[8] Suppresses NF-kappa
RING1^[1]

RNA Splicing

Small nuclear ribonucleoprotein-associated proteins B and B'

ADAR^[1]
BAT1^[8]
FBL^[1] Fibrillarin
HNRPD^[1]^[8]
HNRPK^[1]^[8]
PTBP1^[1]
PABPN1^[1]
SFRS3^[8]
SFRS9^[1]
SFNRPA^[1]
SNRPB^[1]^[8]
SNRPD^[8]
SNRPD2^[1]^[8]
SNRPG^[1]

Translation Factors

EIF1^[1]^[8] aka SUI1
EIF3C^[1] formerly EIF3S8
EIF3D^[1] formerly EIF3S4
EIF3F^[1] formerly EIF3S5
EIF3I^[1] formerly EIF3S2
EIF3G^[1] formerly EIF3S7
EIF4A2^[1]
EIF4G2^[1]
TUFM^[1] Tu translational elongation factor mitochondrial

tRNA Synthetases

IARS^[8]
KARS^[1]
RARS^[8]
SARS^[1]
VARS2^[1]^[8]
YARS^[1]

RNA Binding Protein

PABPC1^[1] PolyA Binding Protein
ELAVL3^[1]

Ribosomal Proteins

RPL3^[1]
RPL5^[1]^[8]
RPL8^[1]
RPL9^[8]
RPL10^[1]^[8]
RPL11^[1]
RPL12^[8]
RPL13^[1]^[8]
RPL13A^[1]^[8] Introns contain genes for small nucleolar RNAs U32, U33, U34, and U35
RPL14^[1]^[8]
RPL15^[1]
RPL17^[1]
RPL18^[1]
RPL19^[1]
RPL25^[8]
RPL27^[1]
RPL29^[1]
RPL30^[8]
RPL32^[1]
RPL34^[1]
RPL35^[1]^[8]
RPL36^[1]
RPL37^[1]^[8]
RPL38^[1]
RPL40^[8] transcribed with ubiquitin (see FAU (gene))
RPLP0^[7]
RPLP1^[1]^[7]
RPLP2^[1]
RPS2^[1]
RPS5^[8]
RPS9^[1]
RPS10^[1]
RPS11^[1]
RPS12^[1]
RPS13^[1]^[8]
RPS14^[1]^[8]
RPS15^[1]
RPS16^[1]^[8]
RPS18^[1]
RPS19^[1]^[8]
RPS20^[8]
RPS23^[8]
RPS24^[1]
RPS25^[1]^[8]
RPS26^[8]
RPS27^[8] transcribed with ubiquitin (see FAU (gene))
RPS28^[8]
RPS30^[1] transcribed with ubiquitin as the FAU (gene)

RPN1^[1]^[8] Ribophorin anchors the ribosome to rough endoplasmic reticulum

MRPL9^[1]^[8]

RNA Polymerase

POLR2A^[1]
POLR2E^[8]
POLR2J^[8]
POLR2L ^[10]

Protein Processing

Cyclophilin A^[9] Serine-threonine phosphatase inhibitor involved in protein folding
PPIH^[7] Cyclophilin H
CANX^[1]^[8] Folding of glycoproteins within endoplasmic reticulum
CAPNS1^[1]^[8] Calpain protease
NACA^[1]^[8] Nascent polypeptide associated complex alpha polypeptide
PFDN1^[1] Prefoldin 1
PFDN5^[1] Prefoldin 5
SNX3^[1] Sorting nexin
SNX17^[8]
SNX27^[8]
SSR2^[1] Protein translocation in ER
SUMO2^[1]^[8] Protein targeting

Heat Shock Proteins

HSPA8^[1]^[8]
HSP90AB1^[1]
HSBP1^[1]

Histone

CDH4^[1] Nucleosome remodeling
HIST1H2BC^[1]
H2AFY^[1] Histone 2 Subfamily
H2AFZ^[1]^[8] essential for embryogenesis
H3F3A^[1]^[8] H3 Histone Family

Cell Cycle

ARHGAP1^[1]
ARHGDIA^[1]^[8]
CENPB^[1] Centromere protein B
CTBP1^[1]^[8]
cyclophilin
CCND3^[1]
GAS1^[1]^[8] Blocks entry into S phase
PPP2CB^[1] Negative regulator of growth and cell division
PPP2R1A^[8] Negative regulator of growth and cell division
RAD9^[1]
KIAA0174^[1]^[8] or IST1 homolog (locates to central dividing line of dividing cells)

Apoptosis

DAD1^[1]^[8] Defender against cell death
DAP (gene)^[1]
DAXX^[1] Death Associated Protein 6

Oncogenes

ARAF^[1]
MAZ (gene)^[1]^[8]
MYC^[1]^[8] also considered a transcription factor
SAFB^[1]
RAB1A^[1]

DNA Repair/Replication

Ku80^[1] aka XRCC5
MCM3AP^[1] possibly a primase

Metabolism

PRKAG1^[1] Senses energy level and inactivates HMGCoA reductase and Acetyl CoA Carboxylase

Carbohydrate Metabolism

PRKCSH^[1]^[8] Glucosidase 2, subunit beta (activated by PKC)
B4GALT2^[1]
GUSB^[7]^[9] Beta Glucuronidase Sly syndrome
Chitinase^[1]
Phosphogluconate dehydrogenase^[1]
GSK3A^[1]
hexokinase rate limiting step? no reference
H6PD^[1]^[8]
Glucose-6-phosphate isomerase^[1]
Phosphofructokinase 1^[8]
Aldolase A^[8]
Aldolase C^[1]
Triosephosphate isomerase^[8]
GAPDH^[1]^[7]^[8]^[9]
PGK1^[1]^[7]^[8]^[9] Phosphoglycerate kinase
Phosphoglycerate mutase^[8]
Enolase^[8]
PKM2^[1]^[8] Pyruvate kinase, muscle
Lactate dehydrogenase^[1]
LDHA^[7] Lactate dehydrogenase
LDHB^[1] Lactate dehydrogenase
TALDO1^[1]^[8] Transaldolase in pentose shunt
Transketolase^[1]
TSTA3^[1] Mannose metabolism

Citric Acid Cycle

SDHA^[1] Succinate Dehydrogenase subunit A
MDH1^[1]^[8] Malate dehydrogenase

Lipid Metabolism

GM2A^[1] not highly expressed constitutively
HADHA^[1] Trifunctional protein subunit alpha
HADHB^[1]^[8] Trifunctional protein subunit beta

Amino Acid Metabolism

COMT^[1] Catechol-O-methyl transferase
GGTLA1^[1] Gamma glutamyl transferase-like 1
PHGDH^[1]^[8] Phosphoglycerate dehydrogenase (first and rate-limiting step of serine biosynthesis)
ODC1^[1]
TPMT^[1]

Nucleotide Synthesis

IMPDH2^[1]^[8] Guanine Nucleotide biosynthesis

NADH Dehydrogenase

NDUFA1^[1]
NDUFA2^[1]
NDUFA7^[1]
NDUFB7^[1]
NDUFC1^[1]
NDUFS5^[1]
NDUFV2^[1]
DIA1^[1]

Cytochrome C Oxidase

(Note that COX1, COX2, and COX3 are mitochondrially encoded)

COX4I1^[1]
COX5A^[1]
COX5B^[1]^[8]
COX6A1^[1]
COX6B1^[1]^[8]
COX7A2L^[1]
COX7C^[1]
COX8^[1]
CYC1^[1]
UQCRC1^[1]
UQCRH^[1]
UQCRQ^[1]^[8] see Cytochrome C1

ATPase

Mitochondrial

ATP5A1^[1]
ATP5D^[1]
ATP5G1^[1]
ATP5G3^[1]^[9]
ATP5H^[1]
ATP5I^[1]
ATP5J2^[1]
ATP5O^[1]

Lysosomal

ATP6IP1^[1]
ATP6V0B^[1]
ATP6V0C^[1]
ATP6V1E^[1]
ATP6V1F^[1]
ATP6V1G1^[1]

Lysosome

CTSD^[1]^[8] can degrade insulin in hepatocytes
Cystatin B^[1] May protect cell from leaking lysosomes
LAMP1^[1]^[8]
Mannose 6-phosphate receptor^[1]^[8]
SGSH^[1]^[8] Mutations can cause Sanfilippo syndrome

Proteosome

PSMB1^[1]
PSMB2^[1]
PSMB4^[1]
PSMB6^[8]
PSMA7^[1]
PSMB7^[1]
PSMD8^[1]
PSMD11^[1]
PSME2^[1]
UBA1^[1]
Ubiquitin B^[1]
UBE2I^[8]
UBE2D2^[1]
UBE2M^[1]
USP11^[1]

Ribonuclease

RNH^[1]^[8] Ribonuclease inhibitor

Oxidase/Reductase

TXN^[1]^[8] Thioreductase

Structural

Cytoskeletal

Actinin alpha 4^[9]
ACTB^[7]Beta-actin^[9]
ACTG1^[1] gamma actin
ADD1^[1]
ANXA6^[1]
ARPC4^[1]^[8] Actin-related protein 2/3 complex
CAPZB^[1]^[8]
COL6A1^[1]
DNCL1^[1] Cytoplasmic Dynein
EZR^[1]^[8] Ezrin (anchors actin to plasma membrane)
KIFC3^[1]^[8] kinesin
Moesin^[1]
MYH9^[1] Myosin chain 9
RHOA^[1]^[8] also implicated in regulation of cell cycle
SEPT1^[1] homologus to CDC10 in S. cerevesiae
SEPT2^[1]
SLC9A3R2^[1] Links SLC9A3 to cytoskeleton
TAGLN^[1]
TAGLN2^[8]
TMSB10^[1]^[8] Thymosin beta 10
TUBB^[1]^[8] Tubulin, beta polypeptide
TUBB4^[1]
WDR1^[1]^[8] actin dissassembly?

Organelle Synthesis

A specialized form of cell signaling

BLOC1S1^[1]^[8]
AP2M1^[1]
ANXA2^[1]
ANXA6^[1]
ANXA7^[8]
AP1B1^[1]^[8] Coated vessicles
CLTA^[1] Clathrin A (vessicles)
CLTB^[1]^[8] Clathrin B (vessicles)
GP2 (gene)^[1]^[8] enzymatic secretory granules (hugely upregulated in pancreas)
KDELR1^[1]^[8] Lys-Asp-Glu-Leu tag that targets to endoplasmic reticulum

Mitochondrion

MTX1^[1]

Surface

AP2S1^[1]
CD81^[1]
GPAA1^[1]
LGALS9^[1]
MGAT1^[1]
VAMP3^[1]

Cell Adhesion

ADAM15^[1]
Beta-catenin^[1]
CNTN1^[1] Contactin
Delta-catenin^[8]

Channels and Transporters

ABCG2^[1] formerly BCRP1 xenobiotic transporter (not expressed in great amounts in most tissues)
CALM1^[1]^[8] Calmodulin grasps calcium ions
CALM2^[1] Calmodulin grasps calcium ions
HPCAL1^[1] also grasps calcium; upregulated in retina
GRIK5^[1]
MFSD10 aka TETRAN or tetracycline transporter-like protein^[1]
TFRC^[7]^[9] Transferrin receptor
FOLR1^[9] Folate receptor
SLC25A11^[1] mitochondrial oxoglutarate/malate carrier

Receptors

ACVRL1^[1] TGF Beta receptor family Rendu-Osler-Weber syndrome
CD23A^[1] FCER2 low affinity IgE receptor (lectin)
GRM4^[1] Metabotropic glutamate receptor
JAG1^[1] NOTCH2 Receptor associated with Alagille syndrome
MC2R^[1] Melanocortin receptor type 2 (similar to ACTH receptor)
SSTR5^[1] Somatostatin receptor tends to inhibit other hormones

HLA/Immunoglobulin/Cell recognition

BAT1^[1]
BSG^[1] Basigin Immunoglobulin Superfamily, extracelluar metalloproteinase
B2M^[9] Beta-2 microglobulin^[1]^[7]^[8]
HLA-C^[1]
HLA-G^[1]
MIF^[1]^[8] macrophage migration inhibitory factor
TAPBP^[1]

Kinases/Signalling

ADRBK1^[1] can downregulate response to epinephrine
AGPAT1^[1]^[8] acyl 3 phosphoglycerol acyl transferase
ARF1^[1]^[8]
ARF3^[1]
ARF4^[1]
ARF5^[1]^[8]
ARL2^[1]^[8] RAS Superfamily
CSF1^[1] Colony stimulating factor not highly expressed constitutively at 5-12
CSK C-src tyrosine kinase^[1]
DCT^[1]^[8] dopachrome tautomerase
EFNA3^[1]
FKBP1A^[1]^[8]
GDI1^[1] GDP Dissociation inhibitor (Rab family)
GNAS1^[1] ubiquitously expressed, but differentially imprinted
GNAI2^[1]^[8]
HAX1^[1]^[8] associated with tyrosine kinases
ILK^[1] Integrin linked kinase
MAPKAPK2^[1]
MAP2K2^[1]^[8]
MAP3K11^[1]
PITPNM^[1] Phosphatidylinositol transfer protein
RAC1^[1]^[8] Ro GTPase involved with many signaling pathways
RAP1B^[1]^[8] GTPase involved with cell adhesion
RAGA^[1]^[8] Ras-related GTP Binding
STK19^[1]
STK24^[1] Serine/Threonine Kinase
STK25^[8]
YWHAB^[1]^[8] Tyrosine 3-monooxygenase/tryptophan 5-monooxygenase activation protein, beta polypeptide
YWHAH^[1]^[8] Tyrosine 3-monooxygenase/tryptophan 5-monooxygenase activation protein, h polypeptide
YWHAQ^[1]^[8] Tyrosine 3-monooxygenase/tryptophan 5-monooxygenase activation protein, theta polypeptide
YWHAZ^[1]^[8] Tyrosine 3-monooxygenase/tryptophan 5-monooxygenase activation protein, zeta polypeptide

Growth Factors

AIF1^[1]
HDGF^[1] Hepatoma derived growth factor (translocates to nucleus)
HGS^[1]
LTBP4^[1]
VEGFB^[1]
ZFP36L1^[1]

Tissue Necrosis Factor

CD40^[1] formerly TNFRSF5

Casein Kinase

CSNK1E^[1]
CSNK2B^[1]^[8]

Miscellaneous

ALAS1 Aminolevulinic Acid Synthase type 1 (type 2 is erythroid and associated with porphyria)
ARHGEF2^[1] Rho guanine nucleotide exchange factor
ARMET^[1]^[8] Mesencephalic astrocyte-derived neurotrophic factor
AES^[1]^[8] amino terminal enhancer of split
BECN1^[1] involved in autophagy and partners with PI3K
BUD31^[1] formerly Maternal G10 transcript
Creatine kinase^[1] CKB (ATP reservoir)
Cytidine deaminase^[1] questionable: not present in very high levels at all
CPNE1^[1]
ENSA (gene)^[1]
FTH1^[1] Heavy chain of Ferritin
GDI2^[1] rab/ras vessicular trafficking
GUK1^[1]^[8] Guanylate kinase transfers phosphate from ATP to GMP
HPRT^[1]^[7]^[9] Hypoxanthine-guanine phosphoribosyltransferase
IFITM1^[1] Induced by interferon, transmembrane protein
JTB (gene)^[1]^[8] Jumping translocation breakpoint
MMPL2^[1]
NME2^[1]^[8] (formerly NM23B) Nucleoside diphosphate kinase
NONO^[1]^[7]
P4HB^[1]^[8]
PRDX1^[1] peroxiredoxin (reduces peroxides)
PTMA^[1] Prothymosin
RPA2^[1] Binds DNA during replication to keep it straightened out
SULT1A3^[1] Sulfate conjugation (note: SULT1C is cited in earlier literature as being ubiquitous ^[8] but this may be an example of different tags being used to refer to a common area of 2 closely related genes. If the tag is too short, then it may not be specific enough to truly specify one member of a gene family from another)
SYNGR2^[1]^[8] Synaptogyrin (may participate in vessicle translocation)
Tetratricopeptide, TTC1^[1] small glutamine rich

tetratricopeptide

Open_reading_frame

C11Orf13^[1]
C14orf2^[1]
C21orf33^[1]

Sperm/Testis

Although this page is devoted to genes that should be ubiquitously expressed, this section is for genes whose current name reflects their relative upregulation in testes

SPAG7^[1]
SRM^[1]^[8] Spermidine synthase
TEGT^[1]^[8] Bax-1 inhibitor
DAZAP2^[1]^[8] Deleted in azoospermia
MEA1^[1]^[8] Male enhanced antigen

References

^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ ^j ^k ^l ^m ⁿ ^o ^p ^q ^r ^s ^t ^u ^v ^w ^x ^y ^z ^aa ^ab ^ac ^ad ^ae ^af ^ag ^ah ^ai ^aj ^ak ^al ^am ^an ^ao ^ap ^aq ^ar ^as ^at ^au ^av ^aw ^ax ^ay ^az ^ba ^bb ^bc ^bd ^be ^bf ^bg ^bh ^bi ^bj ^bk ^bl ^bm ^bn ^bo ^bp ^bq ^br ^bs ^bt ^bu ^bv ^bw ^bx ^by ^bz ^ca ^cb ^cc ^cd ^ce ^cf ^cg ^ch ^ci ^cj ^ck ^cl ^cm ^cn ^co ^cp ^cq ^cr ^cs ^ct ^cu ^cv ^cw ^cx ^cy ^cz ^da ^db ^dc ^dd ^de ^df ^dg ^dh ^di ^dj ^dk ^dl ^dm ^dn ^do ^dp ^dq ^dr ^ds ^dt ^du ^dv ^dw ^dx ^dy ^dz ^ea ^eb ^ec ^ed ^ee ^ef ^eg ^eh ^ei ^ej ^ek ^el ^em ^en ^eo ^ep ^eq ^er ^es ^et ^eu ^ev ^ew ^ex ^ey ^ez ^fa ^fb ^fc ^fd ^fe ^ff ^fg ^fh ^fi ^fj ^fk ^fl ^fm ^fn ^fo ^fp ^fq ^fr ^fs ^ft ^fu ^fv ^fw ^fx ^fy ^fz ^ga ^gb ^gc ^gd ^ge ^gf ^gg ^gh ^gi ^gj ^gk ^gl ^gm ^gn ^go ^gp ^gq ^gr ^gs ^gt ^gu ^gv ^gw ^gx ^gy ^gz ^ha ^hb ^hc ^hd ^he ^hf ^hg ^hh ^hi ^hj ^hk ^hl ^hm ^hn ^ho ^hp ^hq ^hr ^hs ^ht ^hu ^hv ^hw ^hx ^hy ^hz ^ia ^ib ^ic ^id ^ie ^if ^ig ^ih ⁱⁱ ^ij ^ik ^il ^im ⁱⁿ ^io ^ip ^iq ^ir ^is ^it ^iu ^iv ^iw ^ix ^iy ^iz ^ja ^jb ^jc ^jd ^je ^jf ^jg ^jh ^ji ^jj ^jk ^jl ^jm ^jn ^jo ^jp ^jq ^jr ^js ^jt ^ju ^jv ^jw ^jx ^jy ^jz ^ka ^kb ^kc ^kd ^ke ^kf ^kg ^kh ^ki ^kj ^kk ^kl ^km ^kn ^ko ^kp ^kq ^kr ^ks ^kt ^ku ^kv ^kw ^kx ^ky ^kz ^la ^lb ^lc ^ld ^le ^lf ^lg ^lh ^li ^lj ^lk ^ll ^lm ^ln ^lo ^lp ^lq ^lr ^ls ^lt ^lu ^lv ^lw ^lx Eisenberg E, and Levanon EY (July 2003). "Human housekeeping genes are compact". TRENDS in Genetics 19 (7): 362–365. doi:10.1016/S0168-9525(03)00140-9. PMID 12850439.
^ kon Butte, AJ., et al.. (2001). "Further defining housekeeping, or "maintenance," genes focus on 'a compendium of gene expression in normal human tissues'.". Physiol.Genomics 7 (2): 95–96. PMID 11773595.
^ Zhu, J., et al.. (2008). "On the nature of human housekeeping genes.". Trends in genetics 24 (10): 481–484. PMID 18786740.
^ Greer S, Honeywell R, Geletu M, Arulanandam R, Raptis L (Feb 19, 2010). "Housekeeping genes; expression levels may change with density of cultured cells.". J Immunol Methods 355 (1–2): 76–9. doi:10.1016/j.jim.2010.02.006. PMID 20171969.
^ Tan SC, Carr CA, Yeoh KK, Schofield CJ, Davies KE, Clarke K. (Nov 2011). "Identification of valid housekeeping genes for quantitative RT-PCR analysis of cardiosphere-derived cells preconditioned under hypoxia or with prolyl-4-hydroxylase inhibitors.". Mol Biol Rep 39 (4): 4857–67. doi:10.1007/s11033-011-1281-5. PMC 3294216. PMID 22065248.
^ Rifkind RA., et al..; Marks, PA; Bank, A; Terada, M; Maniatis, GM; Reuben, R; Fibach, E (Nov–Dec 1976). "Erythroid differentiation and the cell cycle: some implications from murine foetal and erythroleukemic cells". Ann Immunol (Paris) 127 (6): 887–93. PMID 1070288.
^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ ^j ^k ^l ^m ⁿ ^o ^p ^q ^r ^s Quiagen. "RT2 Profiler PCR Array (96-Well Format and 384-Well Format". Qiagen catalog no. 330231 PAHS-00ZA.
^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ ^j ^k ^l ^m ⁿ ^o ^p ^q ^r ^s ^t ^u ^v ^w ^x ^y ^z ^aa ^ab ^ac ^ad ^ae ^af ^ag ^ah ^ai ^aj ^ak ^al ^am ^an ^ao ^ap ^aq ^ar ^as ^at ^au ^av ^aw ^ax ^ay ^az ^ba ^bb ^bc ^bd ^be ^bf ^bg ^bh ^bi ^bj ^bk ^bl ^bm ^bn ^bo ^bp ^bq ^br ^bs ^bt ^bu ^bv ^bw ^bx ^by ^bz ^ca ^cb ^cc ^cd ^ce ^cf ^cg ^ch ^ci ^cj ^ck ^cl ^cm ^cn ^co ^cp ^cq ^cr ^cs ^ct ^cu ^cv ^cw ^cx ^cy ^cz ^da ^db ^dc ^dd ^de ^df ^dg ^dh ^di ^dj ^dk ^dl ^dm ^dn ^do ^dp ^dq ^dr ^ds ^dt ^du ^dv ^dw ^dx ^dy ^dz ^ea ^eb ^ec ^ed ^ee ^ef ^eg ^eh ^ei ^ej Velculescu VE, Madden SL, Zhang L, Lash AE, Yu J, Rago C, Lal A, Wang CJ, Beaudry GA, Ciriello KM, Cook BP, Dufault MR, Ferguson AT, Gao Y, He TC, Hermeking H, Hiraldo SK, Hwang PM, Lopez MA, Luderer HF, Mathews B, Petroziello JM, Polyak K, Zawel L, Zhang W, Zhang X, Zhou W, Haluska FG, Jen J, Sukumar S, Landes GM, Riggins GJ, Vogelstein B, Kinzler KW. (Dec 1999). "Analyses of Human Transcriptomes". Nat Genet 23 (4): 387–388. doi:10.1038/70487. PMID 10581018.
^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ ^j ^k ^l Caradec J, Sirab N, Keumeugni C, et al.. (2010). "'Desperate house genes': the dramatic example of hypoxia". British Journal of Cancer 102 (6): 1037–43. doi:10.1038/sj.bjc.6605573. PMC 2844028. PMID 20179706.
^ Hsiao LL, Dangond F, Yoshida T, Hong R, Jensen RV, Misra J, Dillon W, Lee KF, et al. (Dec 21, 2001). "A compendium of gene expression in normal human tissues". Physiol Genomics 7 (2): 97–104. doi:10.1152/physiolgenomics.00040.2001. PMID 11773596.

http://www.sagenet.org/transciptome/index.html (dead link, dec 2012)
http://www.tau.ac.il/~elieis/Housekeeping_genes.html
http://www.tau.ac.il/~elieis/HKG/

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2. 大腸癌の分子遺伝学 molecular genetics of colorectal cancer
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English Journal

DNA methyltransferases, DNA damage repair, and cancer.

Jin B, Robertson KD.SourceDepartment of Biochemistry and Molecular Biology, Georgia Health Sciences University Cancer Center, CN-2151, 1410 Laney Walker Blvd, Augusta, GA, 30912, USA.
Advances in experimental medicine and biology.Adv Exp Med Biol.2013;754:3-29.
The maintenance DNA methyltransferase (DNMT) 1 and the de novo methyltransferases DNMT3A and DNMT3B are all essential for mammalian development. DNA methylation, catalyzed by the DNMTs, plays an important role in maintaining genome stability. Aberrant expression of DNMTs and disruption of DNA methyl
PMID 22956494

Standardization in Generating and Reporting Genetically Modified Rodent Malaria Parasites: The RMgmDB Database.

Khan SM, Kroeze H, Franke-Fayard B, Janse CJ.SourceCenter of Infectious Diseases, Leiden University Medical Center, Leiden, The Netherlands.
Methods in molecular biology (Clifton, N.J.).Methods Mol Biol.2013;923:139-50.
Genetically modified Plasmodium parasites are central gene function reagents in malaria research. The Rodent Malaria genetically modified DataBase (RMgmDB) ( www.pberghei.eu ) is a manually curated Web - based repository that contains information
PMID 22990775

Japanese Journal

Novel siRNA Delivery System Using a Ternary Polymer Complex with Strong Silencing Effect and No Cytotoxicity

Kodama Yukinobu,Shiokawa Yumi,Nakamura Tadahiro,Kurosaki Tomoaki,Aki Keisei,Nakagawa Hiroo,Muro Takahiro,Kitahara Takashi,Higuchi Norihide,Sasaki Hitoshi
Biological and Pharmaceutical Bulletin 37(8), 1274-1281, 2014-08-01
… Having achieved knockdown of an exogenously transfected gene, the ability of the complex to mediate knockdown of an endogenous housekeeping gene, glyceraldehyde 3-phosphate dehydrogenase (GAPDH), was assessed in B16-F10 cells. …
NAID 120005477083

Novel siRNA Delivery System Using a Ternary Polymer Complex with Strong Silencing Effect and No Cytotoxicity

Kodama Yukinobu,Shiokawa Yumi,Nakamura Tadahiro,Kurosaki Tomoaki,Aki Keisei,Nakagawa Hiroo,Muro Takahiro,Kitahara Takashi,Higuchi Norihide,Sasaki Hitoshi
Biological and Pharmaceutical Bulletin 37(8), 1274-1281, 2014
… Having achieved knockdown of an exogenously transfected gene, the ability of the complex to mediate knockdown of an endogenous housekeeping gene, glyceraldehyde 3-phosphate dehydrogenase (GAPDH), was assessed in B16-F10 cells. …
NAID 130004677533

Molecular Cloning and Functional Characterization of Two Divergent 4-Coumarate : Coenzyme A Ligases from Kudzu (Pueraria lobata)

Li Zhao-Bo,Li Chang-Fu,Li Jia [他],Zhang Yan-Sheng
Biological and Pharmaceutical Bulletin 37(1), 113-122, 2014
… Combining the dataset including gene expression profiles, metabolites measurements, and biochemical properties, our results indicated that Pl4CL1, just as other angiosperm Class II 4CLs, might play a role in isoflavone biosynthesis in P. … lobata, while Pl4CL2 belongs to angiosperm Class I, and may function as a housekeeping enzyme concerning lignification. …
NAID 130003382114

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関連記事	「housekeeping」

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[housekeeping-1] ^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ ^j ^k ^l ^m ⁿ ^o ^p ^q ^r ^s ^t ^u ^v ^w ^x ^y ^z ^aa ^ab ^ac ^ad ^ae ^af ^ag ^ah ^ai ^aj ^ak ^al ^am ^an ^ao ^ap ^aq ^ar ^as ^at ^au ^av ^aw ^ax ^ay ^az ^ba ^bb ^bc ^bd ^be ^bf ^bg ^bh ^bi ^bj ^bk ^bl ^bm ^bn ^bo ^bp ^bq ^br ^bs ^bt ^bu ^bv ^bw ^bx ^by ^bz ^ca ^cb ^cc ^cd ^ce ^cf ^cg ^ch ^ci ^cj ^ck ^cl ^cm ^cn ^co ^cp ^cq ^cr ^cs ^ct ^cu ^cv ^cw ^cx ^cy ^cz ^da ^db ^dc ^dd ^de ^df ^dg ^dh ^di ^dj ^dk ^dl ^dm ^dn ^do ^dp ^dq ^dr ^ds ^dt ^du ^dv ^dw ^dx ^dy ^dz ^ea ^eb ^ec ^ed ^ee ^ef ^eg ^eh ^ei ^ej ^ek ^el ^em ^en ^eo ^ep ^eq ^er ^es ^et ^eu ^ev ^ew ^ex ^ey ^ez ^fa ^fb ^fc ^fd ^fe ^ff ^fg ^fh ^fi ^fj ^fk ^fl ^fm ^fn ^fo ^fp ^fq ^fr ^fs ^ft ^fu ^fv ^fw ^fx ^fy ^fz ^ga ^gb ^gc ^gd ^ge ^gf ^gg ^gh ^gi ^gj ^gk ^gl ^gm ^gn ^go ^gp ^gq ^gr ^gs ^gt ^gu ^gv ^gw ^gx ^gy ^gz ^ha ^hb ^hc ^hd ^he ^hf ^hg ^hh ^hi ^hj ^hk ^hl ^hm ^hn ^ho ^hp ^hq ^hr ^hs ^ht ^hu ^hv ^hw ^hx ^hy ^hz ^ia ^ib ^ic ^id ^ie ^if ^ig ^ih ⁱⁱ ^ij ^ik ^il ^im ⁱⁿ ^io ^ip ^iq ^ir ^is ^it ^iu ^iv ^iw ^ix ^iy ^iz ^ja ^jb ^jc ^jd ^je ^jf ^jg ^jh ^ji ^jj ^jk ^jl ^jm ^jn ^jo ^jp ^jq ^jr ^js ^jt ^ju ^jv ^jw ^jx ^jy ^jz ^ka ^kb ^kc ^kd ^ke ^kf ^kg ^kh ^ki ^kj ^kk ^kl ^km ^kn ^ko ^kp ^kq ^kr ^ks ^kt ^ku ^kv ^kw ^kx ^ky ^kz ^la ^lb ^lc ^ld ^le ^lf ^lg ^lh ^li ^lj ^lk ^ll ^lm ^ln ^lo ^lp ^lq ^lr ^ls ^lt ^lu ^lv ^lw ^lx Eisenberg E, and Levanon EY (July 2003). "Human housekeeping genes are compact". TRENDS in Genetics 19 (7): 362–365. doi:10.1016/S0168-9525(03)00140-9. PMID 12850439.

[Butte-2] Butte, AJ., et al.. (2001). "Further defining housekeeping, or "maintenance," genes focus on 'a compendium of gene expression in normal human tissues'.". Physiol.Genomics 7 (2): 95–96. PMID 11773595.

[Jiang-3] Zhu, J., et al.. (2008). "On the nature of human housekeeping genes.". Trends in genetics 24 (10): 481–484. PMID 18786740.

[Greer-4] Greer S, Honeywell R, Geletu M, Arulanandam R, Raptis L (Feb 19, 2010). "Housekeeping genes; expression levels may change with density of cultured cells.". J Immunol Methods 355 (1–2): 76–9. doi:10.1016/j.jim.2010.02.006. PMID 20171969.

[Tan-5] Tan SC, Carr CA, Yeoh KK, Schofield CJ, Davies KE, Clarke K. (Nov 2011). "Identification of valid housekeeping genes for quantitative RT-PCR analysis of cardiosphere-derived cells preconditioned under hypoxia or with prolyl-4-hydroxylase inhibitors.". Mol Biol Rep 39 (4): 4857–67. doi:10.1007/s11033-011-1281-5. PMC 3294216. PMID 22065248.

[oldest-6] Rifkind RA., et al..; Marks, PA; Bank, A; Terada, M; Maniatis, GM; Reuben, R; Fibach, E (Nov–Dec 1976). "Erythroid differentiation and the cell cycle: some implications from murine foetal and erythroleukemic cells". Ann Immunol (Paris) 127 (6): 887–93. PMID 1070288.

[quiagen-7] ^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ ^j ^k ^l ^m ⁿ ^o ^p ^q ^r ^s Quiagen. "RT2 Profiler PCR Array (96-Well Format and 384-Well Format". Qiagen catalog no. 330231 PAHS-00ZA.

[everycell-8] ^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ ^j ^k ^l ^m ⁿ ^o ^p ^q ^r ^s ^t ^u ^v ^w ^x ^y ^z ^aa ^ab ^ac ^ad ^ae ^af ^ag ^ah ^ai ^aj ^ak ^al ^am ^an ^ao ^ap ^aq ^ar ^as ^at ^au ^av ^aw ^ax ^ay ^az ^ba ^bb ^bc ^bd ^be ^bf ^bg ^bh ^bi ^bj ^bk ^bl ^bm ^bn ^bo ^bp ^bq ^br ^bs ^bt ^bu ^bv ^bw ^bx ^by ^bz ^ca ^cb ^cc ^cd ^ce ^cf ^cg ^ch ^ci ^cj ^ck ^cl ^cm ^cn ^co ^cp ^cq ^cr ^cs ^ct ^cu ^cv ^cw ^cx ^cy ^cz ^da ^db ^dc ^dd ^de ^df ^dg ^dh ^di ^dj ^dk ^dl ^dm ^dn ^do ^dp ^dq ^dr ^ds ^dt ^du ^dv ^dw ^dx ^dy ^dz ^ea ^eb ^ec ^ed ^ee ^ef ^eg ^eh ^ei ^ej Velculescu VE, Madden SL, Zhang L, Lash AE, Yu J, Rago C, Lal A, Wang CJ, Beaudry GA, Ciriello KM, Cook BP, Dufault MR, Ferguson AT, Gao Y, He TC, Hermeking H, Hiraldo SK, Hwang PM, Lopez MA, Luderer HF, Mathews B, Petroziello JM, Polyak K, Zawel L, Zhang W, Zhang X, Zhou W, Haluska FG, Jen J, Sukumar S, Landes GM, Riggins GJ, Vogelstein B, Kinzler KW. (Dec 1999). "Analyses of Human Transcriptomes". Nat Genet 23 (4): 387–388. doi:10.1038/70487. PMID 10581018.

[desperate-9] ^ ^a ^b ^c ^d ^e ^f ^g ^h ⁱ ^j ^k ^l Caradec J, Sirab N, Keumeugni C, et al.. (2010). "'Desperate house genes': the dramatic example of hypoxia". British Journal of Cancer 102 (6): 1037–43. doi:10.1038/sj.bjc.6605573. PMC 2844028. PMID 20179706.

[Hsiao-10] Hsiao LL, Dangond F, Yoshida T, Hong R, Jensen RV, Misra J, Dillon W, Lee KF, et al. (Dec 21, 2001). "A compendium of gene expression in normal human tissues". Physiol Genomics 7 (2): 97–104. doi:10.1152/physiolgenomics.00040.2001. PMID 11773596.

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housekeeping gene