SubstanceProteinSubunit class

SubstanceProteinSubunit A SubstanceProtein is defined as a single unit of a linear amino acid sequence, or a combination of subunits that are either covalently linked or have a defined invariant stoichiometric relationship. This includes all synthetic, recombinant and purified SubstanceProteins of defined sequence, whether the use is therapeutic or prophylactic. This set of elements will be used to describe albumins, coagulation factors, cytokines, growth factors, peptide/SubstanceProtein hormones, enzymes, toxins, toxoids, recombinant vaccines, and immunomodulators.

Annotations

• @freezed

Constructors

SubstanceProteinSubunit({@JsonKey(name: 'id') String? fhirId, @JsonKey(name: 'extension') List<FhirExtension>? extension_, List<FhirExtension>? modifierExtension, FhirInteger? subunit, @JsonKey(name: '_subunit') Element? subunitElement, String? sequence, @JsonKey(name: '_sequence') Element? sequenceElement, FhirInteger? length, @JsonKey(name: '_length') Element? lengthElement, Attachment? sequenceAttachment, Identifier? nTerminalModificationId, String? nTerminalModification, @JsonKey(name: '_nTerminalModification') Element? nTerminalModificationElement, Identifier? cTerminalModificationId, String? cTerminalModification, @JsonKey(name: '_cTerminalModification') Element? cTerminalModificationElement})

SubstanceProteinSubunit A SubstanceProtein is defined as a single unit of a linear amino acid sequence, or a combination of subunits that are either covalently linked or have a defined invariant stoichiometric relationship. This includes all synthetic, recombinant and purified SubstanceProteins of defined sequence, whether the use is therapeutic or prophylactic. This set of elements will be used to describe albumins, coagulation factors, cytokines, growth factors, peptide/SubstanceProtein hormones, enzymes, toxins, toxoids, recombinant vaccines, and immunomodulators.

const

factory

SubstanceProteinSubunit.fromJson(Map<String, dynamic> json)

Factory constructor, accepts Map<String, dynamic> as an argument

factory

SubstanceProteinSubunit.fromJsonString(String source)

Acts like a constructor, returns a SubstanceProteinSubunit, accepts a String as an argument, mostly because I got tired of typing it out

factory

SubstanceProteinSubunit.fromYaml(dynamic yaml)

Factory constructor that accepts a String in YAML format as an argument

factory

Properties

copyWith → $SubstanceProteinSubunitCopyWith<SubstanceProteinSubunit>

no setter, inherited

cTerminalModification → String?

cTerminalModification The modification at the C-terminal shall be specified.

no setter, inherited

cTerminalModificationElement → Element?

cTerminalModificationElement ("_cTerminalModification") Extensions for cTerminalModification

no setter, inherited

cTerminalModificationId → Identifier?

cTerminalModificationId Unique identifier for molecular fragment modification based on the ISO 11238 Substance ID.

no setter, inherited

extension_ → List<FhirExtension>?

extension_ ("extension") May be used to represent additional information that is not part of the basic definition of the element. To make the use of extensions safe and managable, there is a strict set of governance applied to the definition and use of extensions. Though any implementer can define an extension, there is a set of requirements that SHALL be met as part of the definition of the extension.

no setter, inherited

fhirId → String?

id Unique id for the element within a resource (for internal references). This may be any string value that does not contain spaces.

no setter, inherited

hashCode → int

The hash code for this object.

no setter, inherited

length → FhirInteger?

length Length of linear sequences of amino acids contained in the subunit.

no setter, inherited

lengthElement → Element?

lengthElement ("_length") Extensions for length

no setter, inherited

modifierExtension → List<FhirExtension>?

modifierExtension May be used to represent additional information that is not part of the basic definition of the element and that modifies the understanding of the element in which it is contained and/or the understanding of the containing element's descendants. Usually modifier elements provide negation or qualification. To make the use of extensions safe and managable, there is a strict set of governance applied to the definition and use of extensions. Though any implementer can define an extension, there is a set of requirements that SHALL be met as part of the definition of the extension. Applications processing a resource are required to check for modifier extensions.Modifier extensions SHALL NOT change the meaning of any elements on Resource or DomainResource (including cannot change the meaning of modifierExtension itself).

no setter, inherited

nTerminalModification → String?

nTerminalModification The name of the fragment modified at the N-terminal of the SubstanceProtein shall be specified.

no setter, inherited

nTerminalModificationElement → Element?

nTerminalModificationElement ("_nTerminalModification") Extensions for nTerminalModification

no setter, inherited

nTerminalModificationId → Identifier?

nTerminalModificationId Unique identifier for molecular fragment modification based on the ISO 11238 Substance ID.

no setter, inherited

runtimeType → Type

A representation of the runtime type of the object.

no setter, inherited

sequence → String?

sequence The sequence information shall be provided enumerating the amino acids from N- to C-terminal end using standard single-letter amino acid codes. Uppercase shall be used for L-amino acids and lowercase for D-amino acids. Transcribed SubstanceProteins will always be described using the translated sequence; for synthetic peptide containing amino acids that are not represented with a single letter code an X should be used within the sequence. The modified amino acids will be distinguished by their position in the sequence.

no setter, inherited

sequenceAttachment → Attachment?

sequenceAttachment The sequence information shall be provided enumerating the amino acids from N- to C-terminal end using standard single-letter amino acid codes. Uppercase shall be used for L-amino acids and lowercase for D-amino acids. Transcribed SubstanceProteins will always be described using the translated sequence; for synthetic peptide containing amino acids that are not represented with a single letter code an X should be used within the sequence. The modified amino acids will be distinguished by their position in the sequence.

no setter, inherited

sequenceElement → Element?

sequenceElement ("_sequence") Extensions for sequence

no setter, inherited

subunit → FhirInteger?

subunit Index of primary sequences of amino acids linked through peptide bonds in order of decreasing length. Sequences of the same length will be ordered by molecular weight. Subunits that have identical sequences will be repeated and have sequential subscripts.

no setter, inherited

subunitElement → Element?

subunitElement ("_subunit") Extensions for subunit

no setter, inherited

Methods

noSuchMethod(Invocation invocation) → dynamic

Invoked when a nonexistent method or property is accessed.

inherited

toJson() → Map<String, dynamic>

inherited

toJsonString() → String

Another convenience method because more and more I'm transmitting FHIR data as a String and not a Map

toString() → String

A string representation of this object.

inherited

toYaml() → String

Produces a Yaml formatted String version of the object

Operators

operator ==(Object other) → bool

The equality operator.

inherited