PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
20837137-0	2011	TAK1 lysine 158 is required for TGF-beta-induced TRAF6-mediated Smad-independent IKK/NF-kappaB and JNK/AP-1 activation.	Lysine	5-11	mitogen-activated protein kinase 8	Homo sapiens	99-102	
22924711-7	2012	LPS increased p38 MAPK and JNK phosphorylation at 4 and 2-4 h, respectively, whereas treatment reduced p38 MAPK and JNK phosphorylation only at 2 h. In addition, treatment reversed the LPS-induced elevation of NF-kappaB p65 protein and phosphorylation at serine 468 and induced acetylation at lysine 310.	Lysine	293-299	mitogen-activated protein kinase 8	Homo sapiens	116-119	
22902619-7	2012	Loss of Lys-30 ubiquitination of SLP-76 results in enhanced anti-CD3 antibody-induced ERK and JNK activation.	Lysine	8-11	mitogen-activated protein kinase 8	Homo sapiens	94-97	
22184250-5	2012	Replacement of Lysine 388 and Lysine 472 by arginines generates a nondegradable Miz1 mutant, which significantly suppresses TNF-alpha-induced JNK1 activation and inflammation.	Lysine	15-21	mitogen-activated protein kinase 8	Homo sapiens	142-146	
22184250-5	2012	Replacement of Lysine 388 and Lysine 472 by arginines generates a nondegradable Miz1 mutant, which significantly suppresses TNF-alpha-induced JNK1 activation and inflammation.	Lysine	30-36	mitogen-activated protein kinase 8	Homo sapiens	142-146	
21921033-6	2011	We find that the MAP 3-kinase MEKK1 acts as a novel TTP kinase that, together with the TNF receptor-associated factor 2 (TRAF2), constitutes not only a main determinate of the NF-kappaB-JNK cross-talk but also facilitates "TTP hypermodification": MEKK1 triggers TTP phosphorylation as prerequisite for its Lys-63-linked, TRAF2-mediated ubiquitination.	Lysine	306-309	mitogen-activated protein kinase 8	Homo sapiens	186-189	
20837137-4	2011	Here we report that lysine 158 on TAK1 is required for TGF-beta-induced TRAF6-mediated TAK1 polyubiquitination and TAK1-mediated IKK, JNK and p38 activation.	Lysine	20-26	mitogen-activated protein kinase 8	Homo sapiens	134-137	
19927120-1	2009	TAB2 and TAB3 activate the Jun N-terminal kinase and nuclear factor-kappaB pathways through the specific recognition of Lys 63-linked polyubiquitin chains by its Npl4 zinc-finger (NZF) domain.	Lysine	120-123	mitogen-activated protein kinase 8	Homo sapiens	27-48	
20484055-5	2010	Tubulin hyperacetylation on lysine 40 enhances kinesin-1 and JIP-1 recruitment on microtubules and allows JNK phosphorylation and activation.	Lysine	28-34	mitogen-activated protein kinase 8	Homo sapiens	106-109	
19737936-6	2009	The JNK substrate Itch (a HECT domain-containing Nedd4-like ubiquitin protein ligase) bound to MKK4, ubiquitinated lysines 140 and 143, and promoted MKK4 degradation.	Lysine	115-122	mitogen-activated protein kinase 8	Homo sapiens	4-7	
19041150-6	2009	In addition, an association of JNK1 activation with the histone H3 lysines 4 and 9 tri-methylation was observed in the HCC tissues, which leads to an elevated expression of genes regulating cell growth and a decreased expression of the genes for cell differentiation and the p450 family members in HCC.	Lysine	67-74	mitogen-activated protein kinase 8	Homo sapiens	31-35	
16176806-7	2005	However, the phosphorylation of c-Jun NH(2)-terminal kinase 1 (JNK1) was found to increase in both triptolide- and LY-294002-treated cells.	Lysine	115-117	mitogen-activated protein kinase 8	Homo sapiens	32-61	
18337589-6	2008	S246 GR phosphorylation by JNK facilitated subsequent GR sumoylation at lysines 297 and 313.	Lysine	72-79	mitogen-activated protein kinase 8	Homo sapiens	27-30	
18439917-4	2008	Using human aortic smooth muscle cells, we found that TNFalpha activated the MKK4-JNK1 pathway, which induced histone (H) 4 lysine 12 acetylation within the TNFalpha response element in the P4Halpha1 promoter.	Lysine	124-130	mitogen-activated protein kinase 8	Homo sapiens	82-86	
18093184-0	2008	Activated Rac1, but not the tumorigenic variant Rac1b, is ubiquitinated on Lys 147 through a JNK-regulated process.	Lysine	75-78	mitogen-activated protein kinase 8	Homo sapiens	93-96	
16176806-7	2005	However, the phosphorylation of c-Jun NH(2)-terminal kinase 1 (JNK1) was found to increase in both triptolide- and LY-294002-treated cells.	Lysine	115-117	mitogen-activated protein kinase 8	Homo sapiens	63-67	
12591902-10	2003	Mutation of the lysine residue within the transmembrane domain of CD158j abolished JNK activation, suggesting that an alternate adaptor molecule was being used.	Lysine	16-22	mitogen-activated protein kinase 8	Homo sapiens	83-86	
15958389-6	2005	HIPK2 with a mutated SUMO acceptor lysine residue was refractory to inhibition of HIPK2-mediated JNK activation by SUMO-1.	Lysine	35-41	mitogen-activated protein kinase 8	Homo sapiens	97-100	
15850772-9	2005	Collectively, these findings demonstrate that inactivation of MAPK, Akt, and activation of the JNK pathway contributes to the induction of apoptosis induced by fludarabine/LY.	Lysine	172-174	mitogen-activated protein kinase 8	Homo sapiens	95-98	
10823834-8	2000	Cells plated on poly-l-lysine (to prevent the formation of focal adhesions) showed activation only of JNK and p38.	Lysine	16-29	mitogen-activated protein kinase 8	Homo sapiens	102-105	
9275185-7	1997	Interestingly, deletion of amino acids 353-835 in the putative C-terminal regulatory region, or mutation of Lys-35 in the putative ATP-binding domain, markedly reduced the ability of GLK to activate JNK.	Lysine	108-111	mitogen-activated protein kinase 8	Homo sapiens	199-202	
10409755-9	1999	Transient expression of a dominant negative mutant SEK1 (Lys-->Arg), an upstream kinase of JNK, prevented both TG-induced JNK activation and apoptosis.	Lysine	57-60	mitogen-activated protein kinase 8	Homo sapiens	94-97	
10409755-9	1999	Transient expression of a dominant negative mutant SEK1 (Lys-->Arg), an upstream kinase of JNK, prevented both TG-induced JNK activation and apoptosis.	Lysine	57-60	mitogen-activated protein kinase 8	Homo sapiens	125-128	
9452508-5	1998	Transient expression of a dominant negative mutant SEK1(Lys --> Arg), an upstream kinase of JNK, prevents both DA-induced JNK activation and apoptosis.	Lysine	56-59	mitogen-activated protein kinase 8	Homo sapiens	95-98	
9452508-5	1998	Transient expression of a dominant negative mutant SEK1(Lys --> Arg), an upstream kinase of JNK, prevents both DA-induced JNK activation and apoptosis.	Lysine	56-59	mitogen-activated protein kinase 8	Homo sapiens	125-128	
35224496-5	2022	Additionally, the simulations prospectively predicted several druggable cysteine and lysine sites, including the alphaH head cysteine in JNK1/3 and DFG + 6 cysteine in JNK2, corroborating the chemical proteomic screening data.	Lysine	85-91	mitogen-activated protein kinase 8	Homo sapiens	137-143	
28753655-5	2017	NleL-induced JNK ubiquitylation, particularly mono-ubiquitylation at the Lys 68 residue of JNK, impairs JNK"s interaction with an upstream kinase MKK7, thus disrupting JNK phosphorylation and activation.	Lysine	73-76	mitogen-activated protein kinase 8	Homo sapiens	13-16	
28753655-5	2017	NleL-induced JNK ubiquitylation, particularly mono-ubiquitylation at the Lys 68 residue of JNK, impairs JNK"s interaction with an upstream kinase MKK7, thus disrupting JNK phosphorylation and activation.	Lysine	73-76	mitogen-activated protein kinase 8	Homo sapiens	91-94	
28753655-5	2017	NleL-induced JNK ubiquitylation, particularly mono-ubiquitylation at the Lys 68 residue of JNK, impairs JNK"s interaction with an upstream kinase MKK7, thus disrupting JNK phosphorylation and activation.	Lysine	73-76	mitogen-activated protein kinase 8	Homo sapiens	104-108	
28753655-5	2017	NleL-induced JNK ubiquitylation, particularly mono-ubiquitylation at the Lys 68 residue of JNK, impairs JNK"s interaction with an upstream kinase MKK7, thus disrupting JNK phosphorylation and activation.	Lysine	73-76	mitogen-activated protein kinase 8	Homo sapiens	91-94	
25056949-4	2014	This regulatory function toward JNK activation but not NF-kappaB activation depends on lysine 105 of TTP, which we identified as the corresponding TRAF2 ubiquitination site.	Lysine	87-93	mitogen-activated protein kinase 8	Homo sapiens	32-35	
32460017-5	2020	Upon DC activation, JNK signaling stimulated p300 association with PKM2 for the acetylation of lysine 433, a classic posttranslational modification critical for PKM2 destabilization and nuclear re-localization.	Lysine	95-101	mitogen-activated protein kinase 8	Homo sapiens	20-23	
26651941-5	2015	Surprisingly, JNK-mediated viral gene induction occurs independently of histone demethylases that remove repressive lysine modifications.	Lysine	116-122	mitogen-activated protein kinase 8	Homo sapiens	14-17	
26651941-6	2015	Rather, JNK signaling results in a histone methyl/phospho switch on HSV lytic promoters, a mechanism permitting gene expression in the presence of repressive lysine methylation.	Lysine	158-164	mitogen-activated protein kinase 8	Homo sapiens	8-11	
26189595-0	2015	Polyubiquitination of Transforming Growth Factor beta-activated Kinase 1 (TAK1) at Lysine 562 Residue Regulates TLR4-mediated JNK and p38 MAPK Activation.	Lysine	83-89	mitogen-activated protein kinase 8	Homo sapiens	126-129