Evolution of a multigene family of chorion proteins in silkmoths.

The evolution of the A family of chorion genes was examined by comparing new protein and DNA sequences from the silkmoths Antheraea pernyi and Bombyx mori with previously known sequences from Antheraea polyphemus. The comparisons indicated that the A family and its major subfamilies are ancient and revealed how parts of the genes corresponding to distinct regions of the protein structure have evolved, both by base substitutions and by segmental reduplications and deletions.

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ORGANIZATION OF THE CHORION GENES OF BOMBYX MORI, A MULTIGENE FAMILY. II. PARTIAL LOCALIZATION OF THREE GENE CLUSTERS

Genetics ◽

10.1093/genetics/92.4.1173 ◽

1979 ◽

Vol 92 (4) ◽

pp. 1173-1185

Author(s):

Marian R Goldsmith ◽

Eileen Clermont-Rattner

Keyword(s):

Bombyx Mori ◽

Isoelectric Focusing ◽

Gene Order ◽

Multigene Family ◽

Gene Clusters ◽

Electrophoretic Variants ◽

Chorion Genes

ABSTRACT Chorion genes of the inbred stock Ascoli have been localized to three linked clusters by analysis of testcross progeny. Electrophoretic variants screened by isoelectric focusing served as markers. The clusters are designated Ch 1, Ch 2, and Ch 3. The gene order is Ch 1-Ch 2-Ch 3-Y, with relative map distances of approximately 0.4 m.u. for Ch 1-2, 3.3 ± 0.9 m.u. for Ch 2-3, and 21 m.u. for Ch 3-Y. In a separate testcross using different markers, two chorion regions were localized 2.3 mu. and 3.1 mu. from p. These markers could not be assigned to Ch 1, 2, or 3 because there is at present no test for allelism in this system.

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ORGANIZATION OF THE CHORION GENES OF BOMBYX MORI, A MULTIGENE FAMILY. I. EVIDENCE FOR LINKAGE TO CHROMOSOME 2

Genetics ◽

10.1093/genetics/90.2.291 ◽

1978 ◽

Vol 90 (2) ◽

pp. 291-310

Author(s):

Marian R Goldsmith ◽

Gayle Basehoar

Keyword(s):

Bombyx Mori ◽

Isoelectric Focusing ◽

Multigene Family ◽

Chromosome 2 ◽

Protein Patterns ◽

Electrophoretic Variants ◽

Chorion Genes ◽

Wide Range ◽

High Degree ◽

Linkage Relationships

ABSTRACT The chorion genes of silkmoths comprise a multigene family that codes for 50 or more highly specialized structural proteins found in the eggshell. A detailed study of the chromosomal organization of these genes was initiated, using inbred stocks of Bombyx mori as a source of electrophoretic variants for genetic markers. Chorion protein patterns were screened on thin-slab polyacrylamide isoelectric focusing gels. A wide range of polymorphism was observed between stocks. However, isoelectric focusing patterns obtained within a stock were nearly homogeneous, indicating that inbreeding has produced a high degree of homozygosis. Testcrosses were carried out to examine the linkage relationships between electrophoretic markers in four inbred stocks. One race (C108) was selected as a standard against which to compare the inheritance of the variants found in the other three stocks. Chorion markers behaved like codominant Mendelian traits in F1 crosses. A total of 15 out of 16 C108 markers cosegregated in subsequent testcrosses, indicating that they are linked. These genes were mapped to the second chromosome, using markers Gr and Y.

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Codon harmonization reduces amino acid misincorporation in bacterially expressed P. falciparum proteins and improves their immunogenicity

AMB Express ◽

10.1186/s13568-019-0890-6 ◽

2019 ◽

Vol 9 (1) ◽

Cited By ~ 1

Author(s):

Neeraja Punde ◽

Jennifer Kooken ◽

Dagmar Leary ◽

Patricia M. Legler ◽

Evelina Angov

Keyword(s):

Protein Structure ◽

Amino Acid ◽

Codon Usage ◽

Dna Sequences ◽

Structural Integrity ◽

Host Cells ◽

Loss Of Function ◽

Species Specific ◽

And Function ◽

The Impact

Abstract Codon usage frequency influences protein structure and function. The frequency with which codons are used potentially impacts primary, secondary and tertiary protein structure. Poor expression, loss of function, insolubility, or truncation can result from species-specific differences in codon usage. “Codon harmonization” more closely aligns native codon usage frequencies with those of the expression host particularly within putative inter-domain segments where slower rates of translation may play a role in protein folding. Heterologous expression of Plasmodium falciparum genes in Escherichia coli has been a challenge due to their AT-rich codon bias and the highly repetitive DNA sequences. Here, codon harmonization was applied to the malarial antigen, CelTOS (Cell-traversal protein for ookinetes and sporozoites). CelTOS is a highly conserved P. falciparum protein involved in cellular traversal through mosquito and vertebrate host cells. It reversibly refolds after thermal denaturation making it a desirable malarial vaccine candidate. Protein expressed in E. coli from a codon harmonized sequence of P. falciparum CelTOS (CH-PfCelTOS) was compared with protein expressed from the native codon sequence (N-PfCelTOS) to assess the impact of codon usage on protein expression levels, solubility, yield, stability, structural integrity, recognition with CelTOS-specific mAbs and immunogenicity in mice. While the translated proteins were expected to be identical, the translated products produced from the codon-harmonized sequence differed in helical content and showed a smaller distribution of polypeptides in mass spectra indicating lower heterogeneity of the codon harmonized version and fewer amino acid misincorporations. Substitutions of hydrophobic-to-hydrophobic amino acid were observed more commonly than any other. CH-PfCelTOS induced significantly higher antibody levels compared with N-PfCelTOS; however, no significant differences in either IFN-γ or IL-4 cellular responses were detected between the two antigens.

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