Brevin A. Smider scite author profile

2020

BMC Immunol

Background Cow antibodies are very unusual in having exceptionally long CDR H3 regions. The genetic basis for this length largely derives from long heavy chain diversity (DH) regions, with a single “ultralong” DH, IGHD8–2, encoding over 50 amino acids. Many bovine IGHD regions have sequence similarity but have several nucleotide repeating units that diversify their lengths. Genomically, most DH regions exist in three clusters that appear to have formed from DNA duplication events. However, the relationship between the genomic arrangement and long CDR lengths is unclear. Results The DH cluster containing IGHD8–2 underwent a rearrangement and deletion event in relation to the other clusters in the region corresponding to IGHD8–2, with possible fusion of two DH regions and expansion of short repeats to form the ultralong IGHD8–2 gene. Conclusions Length heterogeneity within DH regions is a unique evolutionary genomic mechanism to create immune diversity, including formation of ultralong CDR H3 regions.

Formation of ultralong DH regions through genomic rearrangement

2020

Preprint

Background: Cow antibodies are very unusual in having exceptionally long CDR H3 regions. The genetic basis for this length largely derives from long heavy chain diversity (DH) regions, with a single “ultralong” DH, IGHD8-2, encoding over fifty amino acids. Many bovine IGHD regions have sequence similarity but have several nucleotide repeating units that diversify their lengths. Genomically, most DH regions exist in three clusters that appear to have formed from DNA duplication events. However, the relationship between the genomic arrangement and long CDR lengths is unclear. Results: The DH cluster containing IGHD8-2 underwent a rearrangement and deletion event in relation to the other clusters in the region corresponding to IGHD8-2, with possible fusion of two DH regions and expansion of short repeats to form the ultralong IGHD8-2 gene. Conclusions: Length heterogeneity within DH regions is a unique evolutionary genomic mechanism to create immune diversity, including formation of ultralong CDR H3 regions.

Formation of ultralong DH regions through genomic rearrangement

2019

Preprint

Cow antibodies are very unusual in having exceptionally long CDR H3 regions. The genetic basis for this length largely derives from long heavy chain diversity (DH) regions, with a single “ultralong” DH, IGHD8-2, encoding over fifty amino acids. Most bovine IGHD regions are homologous but have several nucleotide repeating units that diversify their lengths. Genomically, most DH regions exist in three clusters that appear to have formed from DNA duplication events. The cluster containing IGHD8-2 underwent a rearrangement and deletion event in relation to the other clusters in the region corresponding to IGHD8-2, with possible fusion of two DH regions and expansion of short repeats to form the ultralong IGHD8-2 gene. Length heterogeneity within DH regions is a unique evolutionary genomic mechanism to create immune diversity, including formation of ultralong CDR H3 regions.

A selectable system to evaluate synthetic gene optimization features

Gil

2019

Preprint

Heterologous gene expression – transferring genes from a natural cell or origin to another host cell, often across species – is a fundamental technique in biological research as well as biotechnological and pharmaceutical manufacturing. Optimization of gene sequences, therefore, is a critical factor when enhanced protein yield is needed. For any given protein, an enormous diversity of nucleotide sequences comprising the vast combinatorics of possible codon combinations could theoretically be used to encode the same amino acid sequence. The process of “codon optimization” typically replaces certain codons thought to be suboptimal with a more optimal codon encoding the same amino acid. However, such methods cannot address the enormity of possible nucleotide sequences possible to encode a given protein, or to decipher potential factors in addition to codon usage that may affect gene expression. Here we utilize the Sh ble gene encoding zeocin resistance in a system comprising bioinformatic synthetic gene production and an antibiotic selection platform. We find that supposedly codon optimized genes do not produce enhanced antibiotic resistance, suggesting that other factors are more important in synthetic gene optimization and heterologous gene expression.

Formation of ultralong DH regions through genomic rearrangement

2019

Preprint

Background: Cow antibodies are very unusual in having exceptionally long CDR H3 regions. The genetic basis for this length largely derives from long heavy chain diversity (DH) regions, with a single “ultralong” DH, IGHD8-2, encoding over fifty amino acids. Most bovine IGHD regions are homologous but have several nucleotide repeating units that diversify their lengths. Genomically, most DH regions exist in three clusters that appear to have formed from DNA duplication events. However, the relationship between the genomic arrangement and long CDR lengths is unclear. Results: The DH cluster containing IGHD8-2 underwent a rearrangement and deletion event in relation to the other clusters in the region corresponding to IGHD8-2, with possible fusion of two DH regions and expansion of short repeats to form the ultralong IGHD8-2 gene. Conclusions: Length heterogeneity within DH regions is a unique evolutionary genomic mechanism to create immune diversity, including formation of ultralong CDR H3 regions.