Marc S. Krug scite author profile

Collagen molecules are major extracellular matrix proteins involved in the development and support of delicate auditory sensory organs. Type II collagen is widely distributed within inner ear tissues, while type IX is found only within the labyrinthine membrane and dense fibers of the tectorial membrane. Antibody specific for type II collagen has been shown to be elevated in some patients with hearing loss due to several presumably autoimmune illnesses (including Meniere's disease, otosclerosis, chronic progressive sensorineural hearing loss, and relapsing polychondritis). Purified human type II and LX collagens and an extract of human cochlear tissue were subjected to isolation by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and transferred to nitrocellulose. The sera of 21 patients with inner ear disease were examined for the presence of anticollagen and anticochlear antibodies; the sera were used to probe Western blots of purified human collagens U, LX, and XI, and cochlear protein extract with peroxidase-conjugated goat anti human polyvalent immunoglobulin as the second antibody. Anti-type II collagen antibodies were seen in 12 of 21 (57%) patients, while 13 of 21 (62%) had anti-type IX antibodies detectable by Western blot. A previously unreported 30 kd (probably noncollagen) protein was found by SDS-PAGE of human cochlear tissue extracts, with 3 patients, all with Meniere's disease, having antibody activity to this protein detected by Western blot. Anti-type II and anti-type LX antibodies were found in a high percentage of patients with Meniere's disease, otosclerosis, and strial atrophy. Six patients (29%), and all control patients, had no detectable antibodies to these proteins by our assay.

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Enzymic synthesis of a 21-nucleotide coat protein binding fragment of R17 ribonucleic acid

Krug¹,

Haseth²,

Uhlenbeck³

1982

Biochemistry

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An oligoribonucleotide with a sequence identical with the bacteriophage R17 replicase initiator region has been synthesized. The sequence also encompasses the binding domain of R17 coat protein, which is known to act as a translational repressor at this site. The 21-nucleotide fragment was synthesized entirely by enzymatic methods, T4 RNA ligase being used to join shorter oligomers. The resulting fragment has a secondary structure with the expected thermal stability. Since the synthetic fragment binds R17 coat protein with the same affinity as a 59-nucleotide fragment isolated from R17 RNA, we conclude that it has full biological activity.

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Ribonuclease H activities associated with viral reverse transcriptases are endonucleases.

Krug

Berger

1989

Proc. Natl. Acad. Sci. U.S.A.

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A series of test substrates have been synthesized to establish the effect of termini on the putative exoribonuclease H activity of reverse transcriptase. Recombinant reverse transcriptase from human immunodeficiency virus, natural enzyme from avian myeloblastosis virus, and a known endonuclease, Escherichia coli ribonuclease H, cleaved relaxed, circular, covalently closed plasmids in which 770 consecutive residues of one strand were ribonucleotides. The avian enzyme also deadenylated capped globin mRNA with a covalently attached oligo(dT) tail at the 3' end. These results resolve a long-standing controversy-that the viral enzymes are obligatory exonucleases in vitro, based on their failure to cleave certain substrates for E. coli ribonuclease H. including circular poly(A)-linear poly(T) and ribonucleotide-substituted supercoiled plasmids, but resemble endonucleases in vivo, based on their ability to degrade RNA in complex DNARNA hybrids. The data strongly suggest that the viral enzymes are endonucleases with exquisite sensitivity to the conformation of heteroduplexes. Inhibition of viral, but not cellular, ribonuclease H with ribonucleoside-vanadyl complexes further distinguishes these enzymes.The functions encoded in the genomes of retroviruses have come under increasingly intense scrutiny since the human immunodeficiency virus (HIV) was isolated and recognized as the causative agent of AIDS. However, the most promising drugs or vaccines target only two HIV functions; 3'-azido-3'-deoxythymidine (AZT) acts predominantly as an inhibitor of the polymerase activity of reverse transcriptase (1) and recombinant CD4 inhibits viral attachment by binding to products of the env gene (reviewed in ref.2).A retroviral function that has attracted relatively little attention, despite its being carried out by one of the better characterized proteins, is the ribonuclease H (RNase H) activity of reverse transcriptase. An RNase H cleaves RNA in a DNARNA hybrid. The viral enzyme is responsible for degradation of genomic viral RNA after synthesis of minusstrand DNA has occurred. Upon removal of the RNA moiety of the DNARNA hybrid, minus-strand DNA becomes available as a template for synthesis of plus-strand DNA (3). The RNase H activity of reverse transcriptase has also been implicated in releasing the tRNA primer that is covalently bound to minus-strand DNA (4), in nicking viral RNA to generate the polypurine-rich oligoribonucleotide that primes synthesis of plus-strand DNA, and in removing the polypurine tract from the DNA extension to which it is linked (5-9).The RNase H activities of reverse transcriptases are believed to be exonucleases that can attack RNA from either the 5' or the 3' end, whereas the normal cellular RNase H activities are endonucleases (10-12). These conclusions were based on experiments with molecules of two types: synthetic hybrids with blocked termini and circles. Both were cleaved by the RNase H isolated either from Escherichia coli or from mammalian tissues, but neither served as a substrate for ...

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Isolation and partial sequencing of the human prothymosin α gene family

Eschenfeldt

Manrow

Krug

et al. 1989

Journal of Biological Chemistry

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Marc S. Krug

[33] First-strand cDNA synthesis primed with oligo(dT)

Antibodies against a 30 Kilodalton Cochlear Protein and Type II and IX Collagens in the Serum of Patients with Inner Ear Diseases

Enzymic synthesis of a 21-nucleotide coat protein binding fragment of R17 ribonucleic acid

Ribonuclease H activities associated with viral reverse transcriptases are endonucleases.

Isolation and partial sequencing of the human prothymosin α gene family

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