34,066 research outputs found
Phosphorylation of EZH2 by AMPK Suppresses PRC2 Methyltransferase Activity and Oncogenic Function-Wan-Original Scan
The original western blot scans for the following manuscript:
Wan L, Xu K, Wei Y, Zhang J, Han T, Fry C, Zhang Z, Wang YV, Huang L, Yuan M, Xia W, Chang WC, Huang WC, Liu CL, Chang YC, Liu J, Wu Y, Jin VX, Dai X, Guo J, Liu J, Jiang S, Li J, Asara JM, Brown M, Hung MC, Wei W. Phosphorylation of EZH2 by AMPK Suppresses PRC2 Methyltransferase Activity and Oncogenic Function. Mol Cell. 2018 Jan 18;69(2):279-291.e5. doi: 10.1016/j.molcel.2017.12.024. PubMed PMID: 29351847; PubMed Central PMCID: PMC5777296
Phosphorylation of EZH2 by AMPK Suppresses PRC2 Methyltransferase Activity and Oncogenic Function-Wan-Original Scan
The original western blot scans for the following manuscript:
Wan L, Xu K, Wei Y, Zhang J, Han T, Fry C, Zhang Z, Wang YV, Huang L, Yuan M, Xia W, Chang WC, Huang WC, Liu CL, Chang YC, Liu J, Wu Y, Jin VX, Dai X, Guo J, Liu J, Jiang S, Li J, Asara JM, Brown M, Hung MC, Wei W. Phosphorylation of EZH2 by AMPK Suppresses PRC2 Methyltransferase Activity and Oncogenic Function. Mol Cell. 2018 Jan 18;69(2):279-291.e5. doi: 10.1016/j.molcel.2017.12.024. PubMed PMID: 29351847; PubMed Central PMCID: PMC5777296
Computation of an exact confidence set for a maximum point of a univariate polynomial function in a given interval
Construction of a confidence set for a maximum point of a function is an important statistical problem. Wan et al. (2015) provided an exact 1??1?? confidence set for a maximum point of a univariate polynomial function in a given interval. In this paper, we give an efficient computational method for computing the confidence set of Wan et al. (2015). We demonstrate with two examples that the new method is substantially more efficient than the proposals by Wan et al. (2015). Matlab programs have been written which make the implementation of the new method straightforward
Maladera haba Ahrens, Fabrizi & Liu 2021
Maladera haba group Key to species of the Maladera haba group: 1 Body smaller ( 6.5 mm). Dorsal surface densely setose....................... M. dajuensis Ahrens, Fabrizi & Liu, sp. n.Published as part of Fabrizi, Silvia, Liu, Wan-Gang, Bai, Ming, Yang, Xing-Ke & Ahrens, Dirk, 2021, A monograph of the genus Maladera Mulsant & Rey, 1871 of China (Coleoptera: Scarabaeidae: Melolonthinae: Sericini), pp. 1-400 in Zootaxa 4922 (1) on page 248, DOI: 10.11646/zootaxa.4922.1.1, http://zenodo.org/record/449631
Observer-based robust control for spacecraft rendezvous with thrust saturation
This paper proposes an observer-based robust guaranteed cost control method for thrust-limited rendezvous in near-circular orbits. Treating the noncircularity of the target orbit as a parametric uncertainty, a linearized motion model derived from the two-body problem is adopted as the controlled plant. Based on this model, a robust guaranteed cost observer-controller is synthesized with a less conservative saturation control law, and sufficient condition for the existence of this observer-based rendezvous controller is derived. Finally, an illustrative example with immeasurable velocity states is presented to demonstrate the advantages and effectiveness of the control scheme. © 2014 Neng Wan et al
Maladera shenglongi Ahrens, Fabrizi & Liu 2021
Maladera shenglongi group Key to species of the Maladera shenglongi group (³³): 1 Anterior margin of metafemur with a continuous and fine serrate line............................................. 2 1’ Anterior margin of metafemur without a continuous and fine serrate line.......................................... 4 2 Pronotum iridescent, shiny..................................... Maladera maoershana Ahrens, Fabrizi & Liu, sp. n. 2’ Pronotum dull........................................................................................ 3 3 Left paramere with two lobes. Right paramere simple. Punctation on head very coarse and dense................................................................................. Maladera shoumanensis Ahrens, Fabrizi & Liu, sp. n. 3’ Left paramere simple. Right paramere with a large basal lobe. Punctation on head fine and dense....................................................................................... Maladera jatuai Ahrens, Fabrizi & Liu, sp. n. 4 Right paramere bifid................................................................................... 5 4’ Right paramere simple................................................................................. 6 5 Right paramere much longer than wide. Left paramere trifid........... Maladera shenglongi Ahrens, Fabrizi & Liu, sp. n. 5’ Right paramere nearly as wide as long. Left paramere bifid.................... Maladera hui Ahrens, Fabrizi & Liu, sp. n. 6 Left paramere with only one narrow process apart from basal lobe. Surface of pronotum plain..................................................................................... Maladera xingkeyangi Ahrens, Fabrizi & Liu, sp. n. 6’ Left paramere trifid. Pronotum with two large convexities on each side of disc, separated by a transverse cavitity.................................................................... Maladera zhejiangensis Ahrens, Fabrizi & Liu, sp. n.Published as part of Fabrizi, Silvia, Liu, Wan-Gang, Bai, Ming, Yang, Xing-Ke & Ahrens, Dirk, 2021, A monograph of the genus Maladera Mulsant & Rey, 1871 of China (Coleoptera: Scarabaeidae: Melolonthinae: Sericini), pp. 1-400 in Zootaxa 4922 (1) on pages 301-302, DOI: 10.11646/zootaxa.4922.1.1, http://zenodo.org/record/449631
Maladera erlangshanica Ahrens, Fabrizi & Liu 2021
Maladera erlangshanica group Key to species of the Maladera erlangshanica group: 1 Body larger (> 13 mm), elongate, humeri well developed............... Maladera breviclava Ahrens, Fabrizi & Liu, sp. n. 1’ Body smaller (<12.0 mm), egg-shaped, humeri reduced...................................................... 2 2 Body surface dull........................................... Maladera erlangshanica Ahrens, Fabrizi & Liu, sp. n. 2’ Body more or less shiny................................................................................ 3 3 Body black, strongly shiny. Parameres short (e.g., Fig. 69 E-H).................................................. 5 3’ Body dark brown, weakly shiny. Parameres long (e.g., Fig. 70 E-H).............................................. 4 4 Left paramere distinctly shorter than the right. Right paramere with large basal lobe.......................................................................................... Maladera pingchuanensis Ahrens, Fabrizi & Liu, sp. n. 4’ Parameres subequal in length. Right paramere without basal lobe........ Maladera yunnanica Ahrens, Fabrizi & Liu, sp. n. 5 Right paramere without basal lobe.................................... Maladera aptera Ahrens, Fabrizi & Liu, sp. n. 5’ Right paramere with large basal lobe................................ Maladera queinneci Ahrens, Fabrizi & Liu, sp. n.Published as part of Fabrizi, Silvia, Liu, Wan-Gang, Bai, Ming, Yang, Xing-Ke & Ahrens, Dirk, 2021, A monograph of the genus Maladera Mulsant & Rey, 1871 of China (Coleoptera: Scarabaeidae: Melolonthinae: Sericini), pp. 1-400 in Zootaxa 4922 (1) on page 293, DOI: 10.11646/zootaxa.4922.1.1, http://zenodo.org/record/449631
Maladera crenolatipes Ahrens, Fabrizi & Liu 2021
Maladera crenolatipes group Key to species of the Maladera crenolatipes group occurring in China (³³): 1 Anterior frons shiny, without tomentum. Antennal club distinctly longer than remaining antennomeres combined.......... 2 1’ Frons completely dull. Antennal club as long as remaining antennomeres combined................................. 3 2 Parameres longer, width even throughout length.................. Maladera sanqingshanica Ahrens, Fabrizi & Liu, sp. n. 2’ Parameres shorter, left paramere widened at middle................. Maladera crenolatipes Ahrens, Fabrizi & Liu, sp. n. 3 At least one of the parameres with a basal lobe.............................................................. 4 3’ Parameres without basal lobes...................................... Maladera fuanensis Ahrens, Fabrizi & Liu, sp. n. 4 Left paramere with large basal lobe. Right paramere without basal lobe.......................................... 5 4’ Right paramere with large basal lobe. Left paramere without basal lobe..................................................................................................... Maladera crenatotibialis Ahrens, Fabrizi & Liu, sp. n. 5 Parameres shorter, right paramere narrower at base, distal lobe of left paramere as long as the basal lobe, and only moderately curved..................................................... Maladera lianxianensis Ahrens, Fabrizi & Liu, sp. n. 5’ Parameres longer, right paramere wider at base, distal lobe of left paramere longer than the basal lobe, and more strongly reflexed....................................................... Maladera xuezhongi Ahrens, Fabrizi & Liu, sp. n.Published as part of Fabrizi, Silvia, Liu, Wan-Gang, Bai, Ming, Yang, Xing-Ke & Ahrens, Dirk, 2021, A monograph of the genus Maladera Mulsant & Rey, 1871 of China (Coleoptera: Scarabaeidae: Melolonthinae: Sericini), pp. 1-400 in Zootaxa 4922 (1) on page 284, DOI: 10.11646/zootaxa.4922.1.1, http://zenodo.org/record/449631
Maladera nigrobrunnea Fabrizi & Liu & Bai & Yang & Ahrens 2021, comb. n.
Maladera nigrobrunnea (Moser, 1926) comb. n. Figures 75 E–H, 128Published as part of Fabrizi, Silvia, Liu, Wan-Gang, Bai, Ming, Yang, Xing-Ke & Ahrens, Dirk, 2021, A monograph of the genus Maladera Mulsant & Rey, 1871 of China (Coleoptera: Scarabaeidae: Melolonthinae: Sericini), pp. 1-400 in Zootaxa 4922 (1) on page 318, DOI: 10.11646/zootaxa.4922.1.1, http://zenodo.org/record/449631
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