Frequency of uncommon causes in young adults and non-young adults. by Yuichiro Ohya (13040293)

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Vascular assessments for stroke etiology in young adults and non-young adults. by Yuichiro Ohya (13040293)

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Frequency of embolic sources in young adults and non-young adults. by Yuichiro Ohya (13040293)

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Prevalence of vascular risk factors according to age among young adults versus non-young adults. by Yuichiro Ohya (13040293)

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Prevalence of lifestyle-related risk factors according to age among young adults versus non-young adults. by Yuichiro Ohya (13040293)

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Stroke subtype of young adults and non-young adults. by Yuichiro Ohya (13040293)

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Mean sum of squares for MI% and chromosomal aberrations from mung bean root tips under Cd alone and priming with phytohormones and proline before Cd stress. by Meher Hassan (11502144)

Interplay Between Applied Force and Radical Attack in the Mechanochemical Chain Scission of Poly(acrylic acid) by Michael T. Robo (1342344)

“…The force needed for bond rupture was estimated to decrease from 4.7 to 2.5 nN. This occurs because hydrogen atom abstraction drastically alters the potential energy surface of the scissile bond. …”

Interplay Between Applied Force and Radical Attack in the Mechanochemical Chain Scission of Poly(acrylic acid) by Michael T. Robo (1342344)

“…The force needed for bond rupture was estimated to decrease from 4.7 to 2.5 nN. This occurs because hydrogen atom abstraction drastically alters the potential energy surface of the scissile bond. …”

Interplay Between Applied Force and Radical Attack in the Mechanochemical Chain Scission of Poly(acrylic acid) by Michael T. Robo (1342344)

“…The force needed for bond rupture was estimated to decrease from 4.7 to 2.5 nN. This occurs because hydrogen atom abstraction drastically alters the potential energy surface of the scissile bond. …”

Interplay Between Applied Force and Radical Attack in the Mechanochemical Chain Scission of Poly(acrylic acid) by Michael T. Robo (1342344)

“…The force needed for bond rupture was estimated to decrease from 4.7 to 2.5 nN. This occurs because hydrogen atom abstraction drastically alters the potential energy surface of the scissile bond. …”

Interplay Between Applied Force and Radical Attack in the Mechanochemical Chain Scission of Poly(acrylic acid) by Michael T. Robo (1342344)

“…The force needed for bond rupture was estimated to decrease from 4.7 to 2.5 nN. This occurs because hydrogen atom abstraction drastically alters the potential energy surface of the scissile bond. …”

Analysis of WT and <i>Abl</i> neuronal growth at RT and HT. by Lijuan Liu (136685)

“…Note that over 60% of WT lamellipodia at RT fall between 5–10 µm2, whereas at HT over 70% of lamellipodia are 10 µm2 or larger, even reaching areas over 25 µm2. …”

If a bird calls, will we detect it? Factors that can influence the detectability of calls on automated recording units in field conditions by Abby Thomas (9288104)

Effect of WT and 112-syn on heat induced aggregation of aldolase (ALD). by Krishna Madhuri Manda (572103)

S5 Fig - by Yaqi Wang (1555240)

Mutation (_mut) in the extracellular loop (ECL) 2 leads to decreased <i>cis</i>- and <i>trans</i>-interaction of claudins (Cldns). by Nora Gehne (4357123)

<i>Med23</i> deletion causes decreased H3K9me2 occupancy among the promoter of <i>Ccl5</i> and <i>Cxcl10</i>. by Zhichao Wang (3570413)

Primary infection data for Figs 2, 3 and 5. by Anna K. Großkopf (4846915)

NTD125 stabilizes WT p53 <i>in vitro</i>. by Anuj Kumar Sharma (219374)