\u3ci\u3eHolmes-Laski Letters\u3c/i\u3e (1953)

In 1916, Felix Frankfurter introduced Harold Laski to Justice Holmes. An aristocratic Yankee, 75, and an upstart, middle-class Englishman just 23, whose father was in trade, they made friends and wrote to each other for 18 ½ years, until Holmes\u27s death. One looked like Hitler, the other like Uncle Sam. They had in common: an interest in law, philosophy and literature; egotism; deep learning; a concern for liberty. Each was familiar with the thought and leading thinkers of the other\u27s country. Each was happily married to a woman older than himself. Each had had trouble with his father. Former Brandeis clerk David Riesman would call both inner directed. The letters contain accounts of daily life, comments on reading and adventures among ideas. They are intellectual and warm. One man wrote to the son he never had, the other to the father he preferred. They did not hide their basic differences about what is and does the public good

Deportation as a Denial of Substantive Due Process

This article considers the basis and limit of the constitutional power to deport aliens who have become settled residents of the United State

Unemployment Compensation in Labor Disputes

This article will discuss the labor dispute section of the Washington State Unemployment Compensation Act1 and especially the advantages of an insurance coverage test as the most satisfactory approach by which this section may be applied

Crystal Structure of the P Pilus Rod Subunit PapA

P pili are important adhesive fibres involved in kidney infection by uropathogenic Escherichia coli strains. P pili are assembled by the conserved chaperone-usher pathway, which involves the PapD chaperone and the PapC usher. During pilus assembly, subunits are incorporated into the growing fiber via the donor-strand exchange (DSE) mechanism, whereby the chaperone's G1 β-strand that complements the incomplete immunoglobulin-fold of each subunit is displaced by the N-terminal extension (Nte) of an incoming subunit. P pili comprise a helical rod, a tip fibrillum, and an adhesin at the distal end. PapA is the rod subunit and is assembled into a superhelical right-handed structure. Here, we have solved the structure of a ternary complex of PapD bound to PapA through donor-strand complementation, itself bound to another PapA subunit through DSE. This structure provides insight into the structural basis of the DSE reaction involving this important pilus subunit. Using gel filtration chromatography and electron microscopy on a number of PapA Nte mutants, we establish that PapA differs in its mode of assembly compared with other Pap subunits, involving a much larger Nte that encompasses not only the DSE region of the Nte but also the region N-terminal to it. Author Summary. Bacterial adhesion to a host is a crucial step that determines the onset of bacterial infection. It is mediated through recognition of a receptor on the host cell surface by a protein called an adhesin displayed on the surface of the bacterium. Many adhesins are displayed at the tip of specialized organelles called pili, some of which are assembled by the ubiquitous chaperone-usher pathway. In this pathway, each pilus subunit is assisted in folding by a chaperone. The resulting chaperone-subunit complex is targeted to a pore located in the outer membrane, called the usher, that serves as assembly platform. There, pilus subunits dissociate from the chaperone and polymerize, resulting in a surface organelle, the pilus, that protrudes out of the usher. Here, we have determined the structure of the major subunit of the P pilus, PapA. The P pilus, produced in uropathogenic Escherichia coli, displays the adhesin PapG responsible for targeting the bacterium to the kidney epithelium. We have determined the structure of PapA either bound to its cognate chaperone, PapD, or bound to another PapA subunit. These structures provide a view of PapA before and after its assembly in the pilus and shed light on the mechanism of PapA assembly.National Institutes of Health (DE 09761, GM040388, DE 09161); Committee of Scientific Research (3 PO4A 003 24, 2 P05A 137 24); Foundation for Polish Science (SUBSYDIUM PROFESORSKIE award); Swedish Rheumatism Association; Nanna Svartz Foundation; King Gustaf V Foundatio

Abnormal vessel tortuosity as a marker of treatment response of malignant gliomas: preliminary report

pre-printDespite multiple advances in medical imaging, noninvasive monitoring of therapeutic efficacy for malignant gliomas remains problematic. An underutilized observation is that malignancy induces characteristic abnormalities of vessel shape. These characteristic shape abnormalities affect both capillaries and much larger vessels in the tumor vicinity, involve larger vessels prior to sprout formation, and are generally not present in hypervascular benign tumors. Vessel shape abnormalities associated with malignancy thus may appear independently of increase in vessel density. We hypothesize that an automated, computerized analysis of vessel shape as defined from high-resolution MRA can provide valuable information about tumor activity during the treatment of malignant gliomas. This report describes vessel shape properties in 10 malignant gliomas prior to treatment, in 2 patients in remission during treatment, and in 2 patients with recurrent disease. One subject was scanned multiple times. The method involves an automated, statistical analysis of vessel shape within a region of interest for each tumor, normalized by the values obtained from the vessels within the same region of interest of 34 healthy subjects. Results indicate that untreated tumors display statistically significant vessel tortuosity abnormalities. These abnormalities involve vessels not only within the tumor margins as defined from MR but also vessels in the surrounding tissue. The abnormalities resolve during effective treatment and recur with tumor recurrence. We conclude that vessel shape analysis could provide an important means of assessing tumor activity

Visualizing the Structure of Large Trees

This study introduces a new method of visualizing complex tree structured objects. The usefulness of this method is illustrated in the context of detecting unexpected features in a data set of very large trees. The major contribution is a novel two-dimensional graphical representation of each tree, with a covariate coded by color. The motivating data set contains three dimensional representations of brain artery systems of 105 subjects. Due to inaccuracies inherent in the medical imaging techniques, issues with the reconstruction algo- rithms and inconsistencies introduced by manual adjustment, various discrepancies are present in the data. The proposed representation enables quick visual detection of the most common discrepancies. For our driving example, this tool led to the modification of 10% of the artery trees and deletion of 6.7%. The benefits of our cleaning method are demonstrated through a statistical hypothesis test on the effects of aging on vessel structure. The data cleaning resulted in improved significance levels.Comment: 17 pages, 8 figure