---
scientific_name: Glycine max
gene_symbols:
  - GmFATA1a
gene_symbol_long: Fatty Acid Thioesterase A1a
gene_model_pub_name: Glyma18g36130
gene_model_full_id: glyma.Wm82.gnm1.ann1.Glyma18g36130
confidence: 3
curators:
  - Marlene Dorneich-Hayes
comments:
  - Researchers studied the phenotypes of loss-of-function mutants and compared them to WT plants.
  - GmFATA1a loss-of-function mutatants accumulate high concentrations of oleic acid in their seeds.
phenotype_synopsis: GmFATA1a is an acyl-acyl carrier protein thioesterase that hydrolizes 18:1 acyl-acyl carrier proteins.
traits:
  - entity_name: lipid metabolic process
    entity: GO:0006629
  - entity_name: regulation of triglyceride biosynthetic process
    entity: GO:0010866
  - entity_name: fat and essential oil content
    entity: TO:0000604
  - entity_name: seed development
    entity: GO:0048316
references:
  - citation: Zhou, Lakhssassi et. al., 2021
    doi: 10.1007/s00122-021-03917-9
    pmid: 34319424
  - citation: Zuo, Ikram et. al., 2022
    doi: 10.1016/j.csbj.2022.06.014
    pmid: 35782726
---
scientific_name: Glycine max
classical_locus: fap3
gene_symbols:
  - GmFATB1a
gene_symbol_long: Fatty Acid Thioesterase B1a
gene_model_pub_name: Glyma05G012300
gene_model_full_id: glyma.Wm82.gnm2.ann1.Glyma.05G012300
confidence: 4
curators:
  - Marlene Dorneich-Hayes
comments:
  - CRISPR-Cas9 knockout study on genes identified in other species.
  - FATB1a knockouts have low palmitic and stearic acid but high oleic and linoleic acid.
  - FATB1a It is most strongly expressed in seeds and leaves.
phenotype_synopsis: FATB1a codes for an enzyme that hydrolizes saturated acyl-ACPs.
traits:
  - entity_name: lipid metabolic process
    entity: GO:0006629
  - entity_name: regulation of triglyceride biosynthetic process
    entity: GO:0010866
  - entity_name: fat and essential oil content
    entity: TO:0000604
  - entity_name: seed development
    entity: GO:0048316
references:
  - citation: Zhou, Lakhssassi et. al., 2021
    doi: 10.1007/s00122-021-03917-9
    pmid: 34319424
  - citation: Ma, Sun et. al., 2021
    doi: 10.3390/ijms22083877
    pmid: 33918544
---
scientific_name: Glycine max
gene_symbols:
  - GmFATB1b
gene_symbol_long: Fatty Acid Thioesterase B1b
gene_model_pub_name: Glyma.17G120400
gene_model_full_id: glyma.Wm82.gnm2.ann1.Glyma.17G120400
confidence: 4
curators:
  - Marlene Dorneich-Hayes
comments:
  - CRISPR-Cas9 knockout study on genes identified in other species.
  - FATB1b knockouts have low palmitic and stearic acid but high oleic and linoleic acid.
  - FATB1b is most strongly expressed in seeds and leaves.
phenotype_synopsis: FATB1b codes for an enzyme that hydrolizes saturated acyl-ACPs.
traits:
  - entity_name: lipid metabolic process
    entity: GO:0006629
  - entity_name: regulation of triglyceride biosynthetic process
    entity: GO:0010866
  - entity_name: fat and essential oil content
    entity: TO:0000604
  - entity_name: seed development
    entity: GO:0048316
references:
  - citation: Zhou, Lakhssassi et. al., 2021
    doi: 10.1007/s00122-021-03917-9
    pmid: 34319424
  - citation: Ma, Sun et. al., 2021
    doi: 10.3390/ijms22083877
    pmid: 33918544
  - citation: Zuo, Ikram et. al., 2022
    doi: 10.1016/j.csbj.2022.06.014
    pmid: 35782726
---
scientific_name: Glycine max
gene_symbols:
  - GmFATB2b
gene_symbol_long: Fatty Acid Thioesterase B2b
gene_model_pub_name: Glyma06g23560
gene_model_full_id: glyma.Wm82.gnm1.ann1.Glyma06g23560
confidence: 3
curators:
  - Marlene Dorneich-Hayes
comments:
  - Researchers studied the phenotypes of loss-of-function mutants and compared them to WT plants.
  - FATB2b knockouts have low palmitic acid but high oleic acid.
  - FATB2b is most strongly expressed in flowers.
phenotype_synopsis: FATB2b codes for an enzyme that hydrolizes saturated acyl-ACPs.
traits:
  - entity_name: lipid metabolic process
    entity: GO:0006629
  - entity_name: regulation of triglyceride biosynthetic process
    entity: GO:0010866
  - entity_name: fat and essential oil content
    entity: TO:0000604
  - entity_name: seed development
    entity: GO:0048316
references:
  - citation: Zhou, Lakhssassi et. al., 2021
    doi: 10.1007/s00122-021-03917-9
    pmid: 34319424
  - citation: Zuo, Ikram et. al., 2022
    doi: 10.1016/j.csbj.2022.06.014
    pmid: 35782726