Structure of canine pulmonary surfactant apoprotein: cDNA and complete amino acid sequence.

Benson, Bradley J.; Hawgood, Samuel; Schilling, James; Clements, John A.; Damm, D; Cordell, Barbara; White, Roger

doi:10.1073/pnas.82.19.6379

Cited by 151 publications

(81 citation statements)

References 35 publications

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“…Therefore, although the requirement for hydroxyl-groups of the mannose-or galactose-type within the binding-site on the carbohydrate molecules is determined by the E-N/Q-D pair of residues, other differences seen in the sequences of the lectin domains, and of the extensive loop carrying the binding sites in particular, seem to be also involved in ligand selection in the in vivo interaction of C-type lectins with complex carbohydrate structures. Domains identified by sequence comparison and predicted to have an overall folding similar to that seen in the crystal structure of the C-type lectin domain of MBP (Weis et al, 1991b), but lacking some of the characteristic residues involved in calcium/carbohydrate binding, are seen in a number of type I1 membrane proteins ( QPD-E-WND gal Tanaka et al, 1988 QPD-E-WND gal Zimmerman & Ruoslahti, 1989 QPD-E-WND gal Drickamer, 1981Spiess & Lodish, 1985Drickamer et al, 1984Ii et al, 1990Hoyle & Hill, 1991Sat0 et al, 1992Curtis et al, 1992Suter et al, 1987Yokoyama et al, 1989Chan & Takei, 1989Giorda et al, 1990Van Hoegen et al, 1990Houchins et al, 1991Wong et al, 1991Yoshimatsu et al, 1992Lee et al, 1991Taylor et al, 1989Drickamer et al, 1986White et al, 1985Benson et al, 1985Rust et al, 1991Holmskov et al, 1993bHolmskov et al, 1993aLasky et al, 1989Bevilacqua et al, 1991Johnson et al, 1989Christa et al, 1994Ng & Hew, 1992Ewart et al, 1992Rouquier et al, 1991Taylor et al, 1990 EPN-E-WND man (Drickamer, 1992). Not all of the carbohydrate specificities have been determined (*), and certain proteins, although a Proteins containing C-type lectin domains or regions w...…”

Section: The Iectin Domainmentioning

confidence: 99%

Collectins — soluble proteins containing collagenous regions and lectin domains — and their roles in innate immunity

1994

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The collectins are a group of mammalian lectins containing collagen-like regions. They include mannan binding protein, bovine conglutinin, lung surfactant protein A, lung surfactant protein D, and a newly discovered bovine protein named collectin-43. These proteins share a very similar modular domain composition and overall 3-dimensional structure. They also appear to play similar biological roles in the preimmune defense against microorganisms in both serum and lung surfactant. The close evolutionary relationship between the collectins is further emphasized by a common pattern of exons in their genomic structures and the presence of a gene cluster on chromosome 10 in humans that contains the genes known for the human collectins. Studies on the structure/function relationships within the collectins could provide insight into the properties of a growing number of proteins also containing collagenous regions such as Clq, the hibernation protein, the a-and 0-ficolins, as well as the membrane acetylcholinesterase and the macrophage scavenger receptor.

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Section: The Iectin Domainmentioning

confidence: 99%

Collectins — soluble proteins containing collagenous regions and lectin domains — and their roles in innate immunity

1994

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“…SP-A can bind lipids [4] and mannose in a lectin-like manner [5]. Amino acid sequences from human [6,7] and dog SP-A [8] revealed a collagenlike region within the NHz-terminal half and a globular region within the COOH-terminal half of the polypeptide chain. Analysis of the macromolecular organization proved that SP-A aggregates to a complex of 18 polypeptides with 6 collagen-triple helices [9,10], and that this structure is highly homologous to the hexameric structure of Clq [9], a subcomponent of the first component of the classical complement pathway.…”

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confidence: 99%

Effect of canine surfactant protein (SP‐A) on the respiratory burst of phagocytic cells

et al. 1990

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Cells obtained from bronchoalveolar lavage, or neutrophils of peripheral blood of dog, were incubated with the canine surfactant-associated protein A @P-A). A significant decrease of the production of superoxide anion was observed after subsequent stimulation with phorbol-12-myristate-13-acetate (PMA) as measured by the lucigenin-dependent chemiluminescence (CL). Several other proteins used for control experiments did not decrease lucigenin-dependent CL, indicating a specific effect of SP-A on phagocytes. Treatment of SP-A with collagenase. prior to incubation with neutrophils destroyed the depleting effect on oxygen radical production of PMA-stimulated cells. We propose that SP-A acts as a regulatory factor of the respitatory burst of alveolar macrophages and neutrophils in the lungs. The inhibitory effect of SP-A is down-regulated by collagenase released from stimulated alveolar macrophages.

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“…To illustrate the methods, the partial amino acid sequences of chicken hepatic lectin (Drickhamer 1981) and dog pulmonary surfactant (Benson et al 1985) that were previously examined by Zuker (1991) are compared. The maximum likelihood parameter estimates shown in Table 1 are for the generalized model (both with and without special treatment of terminal events).…”

Section: Examplementioning

confidence: 99%

Estimation and Reliability of Molecular Sequence Alignments

Thorne

Churchill²

1995

Biometrics

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SummaryThe problem of estimating the relatedness of a pa1r of biological sequences IS addressed. A stochastic model of sequence evolution is described that allows insertion and deletion as well as replacement of amino acid residues (or substitution of nucleotides) over time. An expectation-maximization (EM) algorithm that obtains maximum likelihood estimates of the model parameters is introduced. The method assumes the sequences are related by descent from a common ancestor but the alignment (i.e., the precise evolutionary correspondence between residues in each sequence) is unknown. Results from the E-step of the EM algorithm are used to assess the likelihood that any pair of residues are related by direct descent from a common ancestor.

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Structure of canine pulmonary surfactant apoprotein: cDNA and complete amino acid sequence.

Cited by 151 publications

References 35 publications

Collectins — soluble proteins containing collagenous regions and lectin domains — and their roles in innate immunity

Collectins — soluble proteins containing collagenous regions and lectin domains — and their roles in innate immunity

Effect of canine surfactant protein (SP‐A) on the respiratory burst of phagocytic cells

Estimation and Reliability of Molecular Sequence Alignments

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