What role does CYP706V12 play in sesame seed germination according to SUNBOR's research?

CYP706V12 is a cytochrome P450 enzyme that converts sesamin into other lignan compounds during sesame seed germination.

How many new CYP enzymes were identified by the Suntory Institute for Bioorganic Research in 2023?

The Suntory Institute for Bioorganic Research identified three new CYP enzymes: CYP706V12, CYP706V13, and CYP706V14.

Which compound is primarily transformed during sesame seed germination according to the SUNBOR study?

Sesamin, a major lignan component in sesame seeds, is extensively transformed during germination as revealed by the SUNBOR study.

When did the joint research group led by SUNBOR publish their findings on lignan metabolism?

The joint research group led by SUNBOR published their findings on lignan metabolic control in 2023.

AI News NQ Analysis

Unraveling the Lignan Metabolic Control Mechanism Across Developmental Stages

NQ Score 88/100

N1 Content Completeness 95

Key facts

Unraveling the Lignan Metabolic Control Mechanism Across Developmental Stages
A joint research group led by the Suntory Institute for Bioorganic Research (SUNBOR) has clarified how sesame seeds extensively convert sesamin, a major lignan component, into other compounds during germination. The group discovered a new group of cytochrome P450 (CYP) enzymes, 'CYP706V12–V14,' which act specifically during germination. They revealed that these enzymes, in coordination with glycosyltransferases (UGT), gradually convert sesamin into water-soluble lignan glycosides.
Source: PR TIMES
Date: Wed Jun 10 2026 18:00:01 GMT+0900 (Japan Standard Time)

Direct answer

A joint research group led by the Suntory Institute for Bioorganic Research (SUNBOR) has clarified how sesame seeds extensively convert sesamin, a major lignan component, into other compounds during germination. The group discovered a new group of cytochrome P450 (CYP) enzymes, 'CYP706V12–V14,' which act specifically during germination. They revealed that these enzymes, in coordination with glycosyltransferases (UGT), gradually convert sesamin into water-soluble lignan glycosides.

Citation: Unraveling the Lignan Metabolic Control Mechanism Across Developmental Stages (Wed Jun 10 2026 18:00:01 GMT+0900 (Japan Standard Time)), PR TIMES
Source: PR TIMES
Date: Wed Jun 10 2026 18:00:01 GMT+0900 (Japan Standard Time)

AI Summary (NQ-processed)

A joint research group led by the Suntory Institute for Bioorganic Research (SUNBOR) has clarified how sesame seeds extensively convert sesamin, a major lignan component, into other compounds during germination. The group discovered a new group of cytochrome P450 (CYP) enzymes, 'CYP706V12–V14,' which act specifically during germination. They revealed that these enzymes, in coordination with glycosyltransferases (UGT), gradually convert sesamin into water-soluble lignan glycosides.

AI Analysis

Frequently Asked Questions

Q: What role does CYP706V12 play in sesame seed germination according to SUNBOR's research?: A: CYP706V12 is a cytochrome P450 enzyme that converts sesamin into other lignan compounds during sesame seed germination.
Q: How many new CYP enzymes were identified by the Suntory Institute for Bioorganic Research in 2023?: A: The Suntory Institute for Bioorganic Research identified three new CYP enzymes: CYP706V12, CYP706V13, and CYP706V14.
Q: Which compound is primarily transformed during sesame seed germination according to the SUNBOR study?: A: Sesamin, a major lignan component in sesame seeds, is extensively transformed during germination as revealed by the SUNBOR study.
Q: What is the function of UGT enzymes in relation to CYP706V14 during germination?: A: UGT enzymes work with CYP706V14 to convert sesamin into water-soluble lignan glycosides during sesame seed germination.
Q: When did the joint research group led by SUNBOR publish their findings on lignan metabolism?: A: The joint research group led by SUNBOR published their findings on lignan metabolic control in 2023.