Plasmids and oligos used in this study. by Pétra Vande Zande (17628246)

Strains used in this study. by Pétra Vande Zande (17628246)

Nonsense allele results in mislocalization of Ksr1p. by Pétra Vande Zande (17628246)

Estimated mean lichen species richness vs. distance to the DMTS haul road in Cape Krusenstern National Monument, Alaska, on a log-log scale from a Bayesian posterior predictions mo... by Peter N. Neitlich (4034300)

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Background characteristics of young adults and non-young adults. by Yuichiro Ohya (13040293)

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

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Proportion of stroke subtypes according to age among young adults versus non-young adults. by Yuichiro Ohya (13040293)

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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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Loss of Rtr1 activity leads to decreased RNAPII occupancy at <i>SNR</i> genes and shortened <i>SNR</i> transcripts. by Jose F. Victorino (8595885)

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. …”