※ PIKK family introduction

    Phosphatidylinositol-3 kinase-related kinases (PIKKs) belong to atypical protein kinase group, which share little similarity of kinase catalytic domain. PIKKs family contains six members which are involved in responding to various stresses, including DNA damage, blocks in DNA replication, availability of nutrients and errors in mRNA splicing. The protein kinase domain of PIKKS, located in C-terminus, is always flanked by two conserved domain, known as FAT and FATC domain, which may interact and participate in kinase regulation (1). ATM, one of family member, is involved in responding to a specific type of DNA damage, such as DNA double strand breaks, and controls the cell-cycle progression by phosphorylates multiple substrates including p53 and Chk2. In addition, ATM also locates in cytoplasmic especially in neuronal or neuron-like cells (2). Ataxia telangiectasia and Rad3-related protein (ATR) acts as a DNA damage sensor. Activated by DNA lesions including base adducts, crosslinks, DSBs, and compounds that directly promote replication stress such as hydroxyurea and aphidicolin and phosphorylates multiple substrates to control the DNA replication and mitosis (3). mTOR is a serine/threonine protein kinase which is a central regulator of cellular metabolism, growth and survival in response to hormones, growth factors, nutrients, energy and stress signals. mTOR is regulated by dynamic changes in cellular localization (3). Transformation/transcription domain-associated protein (TRRAP) is also structurally related to the PIKK family. TRRAP proteins (Tra1 in budding yeast) are common components of many histone acetyltransferase (HAT) complexes, and mediate a variety of cellular processes by recruiting HAT complexes to chromatin (4).

Reference
1. Lempiainen, H. and Halazonetis, T.D. (2009) Emerging common themes in regulation of PIKKs and PI3Ks. EMBO J, 28, 3067-3073. PMID: 19779456
2. Yang, D.Q., Halaby, M.J., Li, Y., Hibma, J.C. and Burn, P. (2011) Cytoplasmic ATM protein kinase: an emerging therapeutic target for diabetes, cancer and neuronal degeneration. Drug Discov Today, 16, 332-338. PMID: 21315178
3. Lovejoy, C.A. and Cortez, D. (2009) Common mechanisms of PIKK regulation. DNA Repair (Amst), 8, 1004-1008. PMID: 19464237
4. Kanoh, J. and Yanagida, M. (2007) Tel2: a common partner of PIK-related kinases and a link between DNA checkpoint and nutritional response? Genes Cells, 12, 1301-1304. PMID: 18076567

  Reviewed (6)  or Unreviewed (10) 

No.	Status	iEKPD ID	Ensemble Gene ID	UniProt Accession	Gene Name
1		iEKPD-Ran-0158	ENSRNOG00000009615.7	P42346	Mtor
2		iEKPD-Ran-0336	ENSRNOG00000021024.7	O08561	Pi4kb
3		iEKPD-Ran-0416	ENSRNOG00000034228.5	O70173	Pik3c2g
4		iEKPD-Ran-0281	ENSRNOG00000017840.5	O88763	Pik3c3
5		iEKPD-Ran-0466	ENSRNOG00000056371.1	A0A0G2K344	Pik3ca
6		iEKPD-Ran-0255	ENSRNOG00000016384.4	Q9Z1L0	Pik3cb
7		iEKPD-Ran-g002	ENSRNOG00000056810.1	A0A0G2K5T3
8		iEKPD-Ran-0392	ENSRNOG00000029773.5	D4ACL8	Atm
9		iEKPD-Ran-0165	ENSRNOG00000010027.7	D3Z822	Atr
10		iEKPD-Ran-0354	ENSRNOG00000023622.5	F1M0T1	LOC100910021
11		iEKPD-Ran-g003	ENSRNOG00000060045.1	O08662	Pi4ka
12		iEKPD-Ran-0328	ENSRNOG00000020479.5	D3ZTF6	Pik3c2a
13		iEKPD-Ran-g001	ENSRNOG00000029938.5	D3ZVF3	Pik3c2b
14		iEKPD-Ran-0266	ENSRNOG00000016846.6	D4A5Q1	Pik3cd
15		iEKPD-Ran-0155	ENSRNOG00000009385.8	D3ZFJ0	Pik3cg
16		iEKPD-Ran-0360	ENSRNOG00000025028.7	D3ZTN0	Prkdc